Benzimidazole-Based Ratiometric Two-Photon Fluorescent Probes for Acidic pH in Live Cells and Tissues

Abstract: Many aspects of cell metabolism are controlled by acidic pH. We report a new family of small molecule and ratiometric two photon (TP) probes derived from benzimidazole (BH1-3 and BH1L) for monitoring acidic pH values. These probes are characterized by a strong two-photon excited fluorescence, a marked blue-to-green emission color change in response to pH, pKa values ranging from 4.9 to 6.1, a distinctive isoemissive point, negligible cytotoxicity, and high photostability, thereby allowing quantitative analysis… Show more

“…Recently, the Cho's and Kim's groups have reported some benzothiazole and benzimidazole-based compounds that have strong two-photon emission [28][29].…”

Direct imaging of biological sulfur dioxide derivatives in vivo using a two-photon phosphorescent probe

“…Recently, the Cho's and Kim's groups have reported some benzothiazole and benzimidazole-based compounds that have strong two-photon emission [28][29].…”

Direct imaging of biological sulfur dioxide derivatives in vivo using a two-photon phosphorescent probe

“…One effective approach to overcoming these drawbacks and improving non-invasive in vivo fluorescent imaging is to utilize hypoxia-sensing systems that can be directly excited by a two-photon process. These hypoxia-sensing molecules exhibit near-infrared (NIR) or longer excitation wavelengths (two-photon), less phototoxicity, deeper penetration depths and less photobleaching [16,17]. As such, some laboratories have focused on the development of new two-photon imaging probes for hypoxia [18e21].…”

Ruthenium(II) anthraquinone complexes as two-photon luminescent probes for cycling hypoxia imaging in vivo

“…In contrast, a ratiometric measurement through simultaneously recording fluorescence intensities at two wavelengths and calculating their ratios, could endow a self-calibration effect for most of the aforementioned interferences, and thus allow for a more precise measurement of intracellular pH in quantitative manner. Indeed, there are many reports on ratiometric pH probes for imaging weak acidic or near neutral intracellular pH values [31][32][33][34][35][36][37][38][39]. However, up to now still very limited ratiometric fluorescent pH probes have been developed for extreme acidity in living cells [40].…”

An indole-carbazole-based ratiometric emission pH fluorescent probe for imaging extreme acidity