Kelly John J, Chernov Boris K, Tovstanovsky Igor, Mirzabekov Andrei D, Bavykin Sergei G
Northwestern University, Department of Civil Engineering, 2145 Sheridan Road, Evanston, IL 60208, USA.
Anal Biochem. 2002 Dec 15;311(2):103-18. doi: 10.1016/s0003-2697(02)00388-3.
DNA microchip technology is a rapid, high-throughput method for nucleic acid hybridization reactions. This technology requires random fragmentation and fluorescent labeling of target nucleic acids prior to hybridization. Radical-generating coordination complexes, such as 1,10-phenanthroline-Cu(II) (OP-Cu) and Fe(II)-EDTA (Fe-EDTA), have been commonly used as sequence nonspecific "chemical nucleases" to introduce single-strand breaks in nucleic acids. Here we describe a new method based on these radical-generating complexes for random fragmentation and labeling of both single- and double-stranded forms of RNA and DNA. Nucleic acids labeled with the OP-Cu and the Fe-EDTA protocols revealed high hybridization specificity in hybridization with DNA microchips containing oligonucleotide probes selected for identification of 16S rRNA sequences of the Bacillus group microorganisms. We also demonstrated cDNA- and cRNA-labeling and fragmentation with this method. Both the OP-Cu and Fe-EDTA fragmentation and labeling procedures are quick and inexpensive compared to other commonly used methods. A column-based version of the described method does not require centrifugation and therefore is promising for the automation of sample preparations in DNA microchip technology as well as in other nucleic acid hybridization studies.
DNA微芯片技术是一种用于核酸杂交反应的快速、高通量方法。该技术在杂交前需要对靶核酸进行随机片段化和荧光标记。产生自由基的配位络合物,如1,10-菲咯啉-Cu(II)(OP-Cu)和Fe(II)-EDTA(Fe-EDTA),已被普遍用作序列非特异性的“化学核酸酶”,以在核酸中引入单链断裂。在此,我们描述了一种基于这些产生自由基的络合物的新方法,用于对单链和双链形式的RNA和DNA进行随机片段化和标记。用OP-Cu和Fe-EDTA方案标记的核酸在与含有为鉴定芽孢杆菌属微生物的16S rRNA序列而选择的寡核苷酸探针的DNA微芯片杂交时显示出高杂交特异性。我们还用该方法证明了cDNA和cRNA的标记及片段化。与其他常用方法相比,OP-Cu和Fe-EDTA的片段化和标记程序都快速且廉价。所述方法的基于柱的版本不需要离心,因此有望实现DNA微芯片技术以及其他核酸杂交研究中样品制备的自动化。
