Pasternak Anna, Kierzek Elzbieta, Pasternak Karol, Fratczak Agata, Turner Douglas H, Kierzek Ryszard
Institute of Bioorganic Chemistry, Polish Academy of Sciences, 60-714 Poznan, Noskowskiego 12/14, Poland.
Biochemistry. 2008 Feb 5;47(5):1249-58. doi: 10.1021/bi701758z. Epub 2008 Jan 5.
To facilitate design of short isoenergetic hybridization probes for RNA, we report the influence of adding 5'- or 3'-terminal 2'-O-methylguanosine (GM), LNA-guanosine (GL), or 3'-terminal pyrene pseudo-nucleotide (PPN) on the thermodynamic stability of 2'-O-methyl-RNA/RNA (2'-O-Me-RNA/RNA) duplexes with sequences 5'CMGMGMCMAM/3'AAXGCCGUXAA, where X is A, C, G, or U. A 3'-terminal GM or GL added to the 2'-O-Me-RNA strand to form a G-A, G-G or G-U mismatch enhances thermodynamic stability (DeltaDeltaG degrees 37) of the 2'-O-Me-RNA/RNA duplexes on average by 0.7 and 1.5 kcal/mol, respectively. A 3'-terminal GM or GL in a GM-C or GL-C pair stabilizes the 2'-O-Me-RNA/RNA duplex by 2.6 and 3.4 kcal/mol, respectively. A 5'-terminal GM or GL in a G-A or G-G mismatch provided less stabilization in comparison with a 3'-terminal G-A or G-G mismatch, but more stabilization in a G-C or G-U pair. In contrast to guanosine derivatives, pyrene residue (P) as PPN at the 3'-terminal position enhances thermodynamic stability of the 2'-O-Me-RNA/RNA duplexes on average by 2.3 +/- 0.1 kcal/mol, relatively independent of the type of ribonucleotide placed in the opposite strand. The thermodynamic data can be applied to design 2'-O-Me-RNA/RNA duplexes with enhanced thermodynamic stability that is also sequence independent. This is useful for design of hybridization probes to interrogate RNA structure and/or expression by microarray and other methods.
为便于设计用于RNA的短等能量杂交探针,我们报告了在序列为5'CMGMGMCMAM/3'AAXGCCGUXAA(其中X为A、C、G或U)的2'-O-甲基-RNA/RNA(2'-O-Me-RNA/RNA)双链体中,添加5'-或3'-末端2'-O-甲基鸟苷(GM)、锁核酸-鸟苷(GL)或3'-末端芘假核苷酸(PPN)对其热力学稳定性的影响。添加到2'-O-Me-RNA链上形成G-A、G-G或G-U错配的3'-末端GM或GL,平均分别使2'-O-Me-RNA/RNA双链体的热力学稳定性(ΔΔG°37)提高0.7和1.5千卡/摩尔。GM-C或GL-C对中的3'-末端GM或GL分别使2'-O-Me-RNA/RNA双链体稳定2.6和3.4千卡/摩尔。与3'-末端G-A或G-G错配相比,G-A或G-G错配中的5'-末端GM或GL提供的稳定性较低,但在G-C或G-U对中提供的稳定性更高。与鸟苷衍生物不同,芘残基(P)作为3'-末端位置的PPN,平均使2'-O-Me-RNA/RNA双链体的热力学稳定性提高2.3±0.1千卡/摩尔,相对独立于置于互补链上的核糖核苷酸类型。该热力学数据可用于设计具有增强的、且与序列无关的热力学稳定性的2'-O-Me-RNA/RNA双链体。这对于设计通过微阵列和其他方法检测RNA结构和/或表达的杂交探针很有用。
