A dark intermediate in the fluorogenic reaction between tetrazine fluorophores and trans-cyclooctene.

IF 2.4 Q3 BIOPHYSICS
Felix Hild, Philipp Werther, Klaus Yserentant, Richard Wombacher, Dirk-Peter Herten
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引用次数: 0

Abstract

Fluorogenic labeling via bioorthogonal tetrazine chemistry has proven to be highly successful in fluorescence microscopy of living cells. To date, trans-cyclooctene (TCO) and bicyclonyne have been found to be the most useful substrates for live-cell labeling owing to their fast labeling kinetics, high biocompatibility, and bioorthogonality. Recent kinetic studies of fluorogenic click reactions with TCO derivatives showed a transient fluorogenic effect but could not explain the reaction sequence and the contributions of different intermediates. More recently, fluorescence quenching by potential intermediates has been investigated, suggesting their occurrence in the reaction sequence. However, in situ studies of the click reaction that directly relate these observations to the known reaction sequence are still missing. In this study, we developed a single-molecule fluorescence detection framework to investigate fluorogenic click reactions. In combination with data from ultra-performance liquid chromatography-tandem mass spectrometry, this explains the transient intensity increase by relating fluorescent intermediates to the known reaction sequence of TCO with fluorogenic tetrazine dyes. More specifically, we confirm that the reaction of TCO with tetrazine rapidly forms a fluorescent 4,5-dihydropyridazine species that slowly tautomerizes to a weakly fluorescent 1,4-dihydropyridazine, explaining the observed drop in fluorescence intensity. On a much slower timescale of hours/days, the fluorescence intensity may be recovered by oxidation of the intermediate to a pyridazine. Our findings are of importance for quantitative applications in fluorescence microscopy and spectroscopy as the achieved peak intensity with TCO depends on the specific experimental settings. They clearly indicate the requirement for more robust benchmarking of click reactions with tetrazine dyes and the need for alternative dienophiles with fast reaction kinetics and stable fluorescence emission to further applications in advanced fluorescence microscopy.

在四氮荧光团和反式环烯之间的荧光反应中的暗中间体。
生物正交四氮化学荧光标记在活细胞荧光显微镜中是非常成功的。迄今为止,由于其快速的标记动力学,高生物相容性和生物正交性,反式环烯(TCO)和环克隆烯已被发现是最有用的活细胞标记底物。近年来对含TCO衍生物的荧光咔嗒反应的动力学研究显示出短暂的荧光效应,但不能解释反应顺序和不同中间体的贡献。最近,对潜在中间体的荧光猝灭进行了研究,表明它们发生在反应序列中。然而,直接将这些观察结果与已知反应序列联系起来的点击反应的原位研究仍然缺失。在这项研究中,我们开发了一个单分子荧光检测框架来研究荧光咔嗒反应。结合超高效液相色谱-串联质谱的数据,通过将荧光中间体与TCO与荧光四嗪染料的已知反应序列联系起来,解释了瞬态强度增加的原因。更具体地说,我们证实了TCO与四嗪的反应迅速形成荧光4,5-二氢吡啶,并缓慢地互变异构为弱荧光1,4-二氢吡啶,这解释了观察到的荧光强度下降。在较慢的时间尺度上,如小时/天,荧光强度可通过中间体氧化为吡嗪而恢复。我们的发现对于荧光显微镜和光谱学的定量应用具有重要意义,因为TCO的峰值强度取决于特定的实验设置。它们清楚地表明,需要对四氮染料的点击反应进行更强大的基准测试,并且需要具有快速反应动力学和稳定荧光发射的替代二亲试剂,以进一步应用于高级荧光显微镜。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Biophysical reports
Biophysical reports Biophysics
CiteScore
2.40
自引率
0.00%
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0
审稿时长
75 days
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