Institute of Organic Chemistry and Biochemistry of the Czech Academy of Sciences, Prague 166 10, Czech Republic.
Department of Genetics and Microbiology, Faculty of Science, Charles University in Prague, Prague 128 44, Czech Republic.
Nucleic Acids Res. 2024 Aug 27;52(15):9062-9075. doi: 10.1093/nar/gkae490.
Colorimetric assays in which the color of a solution changes in the presence of an input provide a simple and inexpensive way to monitor experimental readouts. In this study we used in vitro selection to identify a self-phosphorylating kinase deoxyribozyme that produces a colorimetric signal by converting the colorless substrate pNPP into the yellow product pNP. The minimized catalytic core, sequence requirements, secondary structure, and buffer requirements of this deoxyribozyme, which we named Apollon, were characterized using a variety of techniques including reselection experiments, high-throughput sequencing, comparative analysis, biochemical activity assays, and NMR. A bimolecular version of Apollon catalyzed multiple turnover phosphorylation and amplified the colorimetric signal. Engineered versions of Apollon could detect oligonucleotides with specific sequences as well as several different types of nucleases in homogenous assays that can be performed in a single tube without the need for washes or purifications. We anticipate that Apollon will be particularly useful to reduce costs in high-throughput screens and for applications in which specialized equipment is not available.
比色分析方法在存在输入的情况下改变溶液的颜色,为监测实验结果提供了一种简单而廉价的方法。在这项研究中,我们使用体外选择来鉴定一种自我磷酸化激酶脱氧核酶,它通过将无色底物 pNPP 转化为黄色产物 pNP 来产生比色信号。我们将这种脱氧核酶命名为 Apollon,其最小化的催化核心、序列要求、二级结构和缓冲要求使用各种技术进行了表征,包括重选实验、高通量测序、比较分析、生化活性测定和 NMR。Apollon 的双分子版本催化多次磷酸化反应并放大比色信号。经过工程改造的 Apollon 可以在无需洗涤或纯化的单一管中进行均相测定,以检测具有特定序列的寡核苷酸以及几种不同类型的核酸内切酶。我们预计 Apollon 将特别有助于降低高通量筛选的成本,并在没有专用设备的情况下应用。