Department of Applied Chemistry, Faculty of Science and Technology , Keio University , 3-14-1 Hiyoshi , Kohoku-ku, Yokohama , Kanagawa 223-8522 , Japan.
Nagahama Institute of Bio-Science and Technology , Nagahama, Kusatsu , Shiga 525-8577 , Japan.
Bioconjug Chem. 2018 Jun 20;29(6):1922-1931. doi: 10.1021/acs.bioconjchem.8b00188. Epub 2018 May 16.
Native coelenterazine (nCTZ) is a common substrate to most marine luciferases and photoproteins. In this study, nine novel dye- and azide-conjugated CTZ analogues were synthesized by conjugating a series of fluorescent dyes or an azide group to the C-2 or C-6 position of the nCTZ backbone to obtain bulkiness-driven substrate specificity and potential chemiluminescence/bioluminescence resonance energy transfer (C/BRET). The investigation on the optical properties revealed that azide-conjugated CTZs emit greatly biased bioluminescence to ALucs and ca. 130 nm blue-shifted bioluminescence with RLuc8.6 in living animal cells or lysates. The corresponding kinetic study explains that azide-conjugated CTZ exerts higher catalytic efficiency than nCTZ. Nile red-conjugated CTZ completely showed red-shifted CRET spectra and characteristic BRET spectra with artificial luciferase 16 (ALuc16). No or less spectral overlap occurs among [Furimazine-NanoLuc], [6-N-CTZ-ALuc26], [6-pi-OH-CTZ-RLuc8.6], and [6-N-CTZ-RLuc8.6] pairs, because of the substrate-driven luciferase specificity and color shifts, providing a crosstalk-free multiplex bioassay platform. The unique bioluminescence system appends a new toolbox to bioassays and multiplex molecular imaging platforms. This study is the first example that systematically synthesized fluorescent dye-conjugated CTZs and applied them for a bioluminescence assay system.
天然腔肠素(nCTZ)是大多数海洋荧光素酶和光蛋白的常见底物。在这项研究中,通过将一系列荧光染料或叠氮基团连接到 nCTZ 主链的 C-2 或 C-6 位置,合成了 9 种新型的染料-和叠氮化物-连接的 CTZ 类似物,以获得体积驱动的底物特异性和潜在的化学发光/生物发光共振能量转移(C/BRET)。对光学性质的研究表明,叠氮化物连接的 CTZ 对 ALucs 发出极大偏向的生物发光,并且在活的动物细胞或裂解物中约有 130nm 的蓝移生物发光。相应的动力学研究解释了叠氮化物连接的 CTZ 比 nCTZ 具有更高的催化效率。尼罗红连接的 CTZ 与人工荧光素酶 16(ALuc16)完全表现出红移的 CRET 光谱和特征的 BRET 光谱。由于底物驱动的荧光素酶特异性和颜色位移,[Furimazine-NanoLuc]、[6-N-CTZ-ALuc26]、[6-pi-OH-CTZ-RLuc8.6]和[6-N-CTZ-RLuc8.6] 对之间几乎没有或没有光谱重叠,提供了一个无串扰的多重生物分析平台。这个独特的生物发光系统为生物分析和多重分子成像平台添加了一个新的工具箱。本研究首次系统地合成了荧光染料连接的 CTZ 并将其应用于生物发光测定系统。
