Chen Zhiqiang, Zhang Yi
State Key Laboratory of Virology and Department of Biotechnology, College of Life Sciences, Wuhan University, Wuhan, Hubei 430072, China.
Biochem Biophys Res Commun. 2005 Aug 5;333(3):664-70. doi: 10.1016/j.bbrc.2005.05.166.
Dimethyl sulfoxide (DMSO) is a "universal" solvent in pharmaceutical sciences and cell biology. DMSO was previously reported to facilitate in vitro transcription of chromatin and supercoiled plasmid, with the underlying mechanism being attributed to the alteration of the template structure. Here, we demonstrated that low concentrations of DMSO significantly increase the phage polymerase-catalyzed RNA synthesis when the naked and short PCR products were used as templates, suggesting that DMSO promotes transcription through additional mechanism(s). Interestingly, SP6 RNA polymerase was more sensitive to the DMSO stimulation than T7 RNA polymerase, suggesting that the polymerase is an important target for DMSO stimulation of RNA synthesis. Consistent with this finding, we also showed that DMSO dramatically elevated the RNA polymerase activity. This elevated activity is explained by altered polymerase structure as reflected by a change in intrinsic fluorescence. Furthermore, DMSO was shown to simultaneously accumulate both the abortive and full-length transcripts, leading us to conclude that the DMSO-altered polymerase structure primarily encodes an enhanced activity at the stage of transcription initiation. DMSO-induced alteration of the polymerase structure and function highlights a potentially generalized mechanism in interpreting the molecular action of this popular solvent.
二甲基亚砜(DMSO)是药物科学和细胞生物学中的一种“通用”溶剂。先前有报道称DMSO可促进染色质和超螺旋质粒的体外转录,其潜在机制归因于模板结构的改变。在此,我们证明,当使用裸露的短PCR产物作为模板时,低浓度的DMSO能显著增加噬菌体聚合酶催化的RNA合成,这表明DMSO通过其他机制促进转录。有趣的是,SP6 RNA聚合酶比T7 RNA聚合酶对DMSO刺激更敏感,这表明聚合酶是DMSO刺激RNA合成的重要靶点。与这一发现一致,我们还表明DMSO显著提高了RNA聚合酶的活性。这种活性的提高可以通过内在荧光变化所反映的聚合酶结构改变来解释。此外,DMSO被证明能同时积累流产转录本和全长转录本,这使我们得出结论,DMSO改变的聚合酶结构主要在转录起始阶段编码增强的活性。DMSO诱导的聚合酶结构和功能改变突出了一种潜在的普遍机制,用于解释这种常用溶剂的分子作用。
