TY - JOUR
T1 - Classical thiazole orange and its regioisomer as fluorogenic probes for nucleolar RNA imaging in living cells
AU - He, Mengmeng
AU - Sato, Yusuke
AU - Nishizawa, Seiichi
N1 - Funding Information:
This work was supported by Grant-in-Aid for Challenging Research (Pioneering) (no. 21K18207), and Scientific Research (B) (no. 20H02761) from Japan Society for the Promotion of Science (JSPS). M.-M. H. acknowledges Chinese Scholarship Council (CSC).
Publisher Copyright:
© 2023 The Royal Society of Chemistry.
PY - 2022
Y1 - 2022
N2 - In contrast to well-established DNA-selective dyes for live cell imaging, RNA-selective dyes have been less developed owing to the challenges of making small molecules have RNA selectivity over DNA. Two kinds of dyes are now commercially available for nucleolar RNA imaging in cells, but these two dyes do not apply to living cells and have limited use in fixed and permeabilized cells. Herein, we report on thiazole orange (TO), a well-known nucleic acid stain, as a promising fluorogenic dye for nucleolar RNA imaging in living cells. TO shows clear response selectivity for RNA over DNA with a significant light-up property upon binding to RNA (λem = 532 nm, I/I0 = 580-fold, and Φbound/Φfree = 380) and is even applicable to wash-free imaging of living cells. More interestingly, 2TO, a regioisomer of TO in which the benzothiazole unit is connected to position 2 in the quinoline ring, performs much better (λem = 532 nm, I/I0 = 430-fold, Φbound/Φfree = 1200), having superior selectivity for RNA in both solution and living cells. The comparison with TO derivatives carrying different substituents at N1 of the quinoline ring reveals that the slight change in the TO framework significantly affects RNA selectivity, photostability and membrane permeability.
AB - In contrast to well-established DNA-selective dyes for live cell imaging, RNA-selective dyes have been less developed owing to the challenges of making small molecules have RNA selectivity over DNA. Two kinds of dyes are now commercially available for nucleolar RNA imaging in cells, but these two dyes do not apply to living cells and have limited use in fixed and permeabilized cells. Herein, we report on thiazole orange (TO), a well-known nucleic acid stain, as a promising fluorogenic dye for nucleolar RNA imaging in living cells. TO shows clear response selectivity for RNA over DNA with a significant light-up property upon binding to RNA (λem = 532 nm, I/I0 = 580-fold, and Φbound/Φfree = 380) and is even applicable to wash-free imaging of living cells. More interestingly, 2TO, a regioisomer of TO in which the benzothiazole unit is connected to position 2 in the quinoline ring, performs much better (λem = 532 nm, I/I0 = 430-fold, Φbound/Φfree = 1200), having superior selectivity for RNA in both solution and living cells. The comparison with TO derivatives carrying different substituents at N1 of the quinoline ring reveals that the slight change in the TO framework significantly affects RNA selectivity, photostability and membrane permeability.
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U2 - 10.1039/d2an01804g
DO - 10.1039/d2an01804g
M3 - Article
C2 - 36602142
AN - SCOPUS:85146161995
SN - 0003-2654
JO - Analyst
JF - Analyst
ER -