光笼控脱氧核酶作为一种检测活细胞中金属离子的通用方法。
Photocaged DNAzymes as a general method for sensing metal ions in living cells.
作者信息
Hwang Kevin, Wu Peiwen, Kim Taejin, Lei Lei, Tian Shiliang, Wang Yingxiao, Lu Yi
机构信息
Department of Chemistry, University of Illinois at Urbana-Champaign, Urbana, IL, 61801 (USA).
出版信息
Angew Chem Int Ed Engl. 2014 Dec 8;53(50):13798-802. doi: 10.1002/anie.201408333. Epub 2014 Oct 14.
Abstract
DNAzymes, which are sequences of DNA with catalytic activity, have been demonstrated as a potential platform for sensing a wide range of metal ions. Despite their significant promise, cellular sensing using DNAzymes has however been difficult, mainly because of the "always-on" mode of first-generation DNAzyme sensors. To overcome this limitation, a photoactivatable (or photocaged) DNAzyme was designed and synthesized, and its application in sensing Zn(II) in living cells was demonstrated. In this design, the adenosine ribonucleotide at the scissile position of the 8-17 DNAzyme was replaced by 2'-O-nitrobenzyl adenosine, rendering the DNAzyme inactive and thus allowing its delivery into cells intact, protected from nonspecific degradation within cells. Irradiation at 365 nm restored DNAzyme activity, thus allowing the temporal control over the sensing activity of the DNAzyme for metal ions. The same strategy was also applied to the GR-5 DNAzyme for the detection of Pb(II), thus demonstrating the possible scope of the method.
摘要
脱氧核酶是具有催化活性的DNA序列,已被证明是检测多种金属离子的潜在平台。尽管它们前景广阔,但使用脱氧核酶进行细胞传感却很困难,主要原因是第一代脱氧核酶传感器的“常开”模式。为克服这一限制,设计并合成了一种光激活(或光笼蔽)脱氧核酶,并展示了其在活细胞中检测锌离子(Zn(II))的应用。在该设计中,8-17脱氧核酶可切割位置的腺苷核糖核苷酸被2'-O-硝基苄基腺苷取代,使脱氧核酶失活,从而允许其完整地递送至细胞内,免受细胞内非特异性降解的影响。365nm的光照可恢复脱氧核酶活性,从而实现对脱氧核酶检测金属离子传感活性的时间控制。同样的策略也应用于GR-5脱氧核酶以检测铅离子(Pb(II)),从而证明了该方法的可能适用范围。
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