Takahashi Shunsuke, Oshige Masahiko, Katsura Shinji, Nagahara Yukitoshi
Division of Life Science and Engineering, School of Science and Engineering, Tokyo Denki University, Ishizaka, Hatoyama-cho, Hiki-gun, Saitama, 350-0394, Japan.
Department of Environmental Engineering Science, Graduate School of Science and Technology, Gunma University, Kiryu, Gunma, 376-8515, Japan; Gunma University Center for Food Science and Wellness (GUCFW), Aramaki, Gunma, 371-8510, Japan.
Anal Biochem. 2023 Feb 1;662:115000. doi: 10.1016/j.ab.2022.115000. Epub 2022 Dec 2.
In this study, a double-stranded DNA (dsDNA) fluorescent labeling method was developed using the fusion proteins of fluorescent protein (FP), and 7 kDa DNA-binding family members including Sso7d from Sulfolobus solfataricus, Aho7c from Acidianus hospitalis, ATSV7 from Acidianus tailed spindle virus and Sto7 from Sulfolobus tokodaii. Using this fluorescent DNA labeling method, we succeeded in single-molecule imaging of bacteriophage λDNA molecules stretched on glass surfaces. The fluorescence of the λDNA with FP fusion proteins decayed 2.4- to 6.4-fold slower than that of the typical intercalating method with SYTOX Green (SxG). In addition, the dynamic behaviors of FP-fused Aho7c-λDNA were relaxed and stretched with and without buffer flow, respectively, in microflow channels and were similar to that with typical intercalating dye, such as YOYO-1 and SxG. this fluorescent DNA labeling method. This fluorescent DNA labeling method can solve the problem of rapid fluorescence decay due to the intercalating dyes and therefore can be expected as an alternative to compound-based fluorescent dye. Thus, this study establishes FP fusion proteins as useful fluorescent DNA probes at the single-molecule level.
在本研究中,利用荧光蛋白(FP)与7 kDa DNA结合家族成员(包括来自嗜热栖热菌的Sso7d、来自医院嗜酸菌的Aho7c、来自尾状纺锤嗜酸菌病毒的ATSV7和来自硫磺矿硫化叶菌的Sto7)的融合蛋白,开发了一种双链DNA(dsDNA)荧光标记方法。使用这种荧光DNA标记方法,我们成功地对伸展在玻璃表面的噬菌体λDNA分子进行了单分子成像。与典型的用SYTOX Green(SxG)嵌入法相比,带有FP融合蛋白的λDNA的荧光衰减速度慢2.4至6.4倍。此外,在微流通道中,带有FP的Aho7c-λDNA的动态行为在有缓冲液流动和无缓冲液流动的情况下分别松弛和伸展,并且与典型的嵌入染料(如YOYO-1和SxG)相似。这种荧光DNA标记方法。这种荧光DNA标记方法可以解决由于嵌入染料导致的荧光快速衰减问题,因此有望成为基于化合物的荧光染料的替代品。因此,本研究确立了FP融合蛋白作为单分子水平上有用的荧光DNA探针。
