Abstract
We report four new luminescent tetracationic bis‐triarylborane DNA and RNA sensors that show high binding affinities, in several cases even in the nanomolar range. Three of the compounds contain substituted, highly emissive and structurally flexible bis(2,6‐dimethylphenyl‐4‐ethynyl)arene linkers (3: arene=5,5′‐2,2′‐bithiophene; 4: arene=1,4‐benzene; 5: arene=9,10‐anthracene) between the two boryl moieties and serve as efficient dual Raman and fluorescence chromophores. The shorter analogue 6 employs 9,10‐anthracene as the linker and demonstrates the importance of an adequate linker length with a certain level of flexibility by exhibiting generally lower binding affinities than 3–5. Pronounced aggregation–deaggregation processes are observed in fluorimetric titration experiments with DNA for compounds 3 and 5. Molecular modelling of complexes of 5 with AT‐DNA, suggest the minor groove as the dominant binding site for monomeric 5, but demonstrate that dimers of 5 can also be accommodated. Strong SERS responses for 3–5 versus a very weak response for 6, particularly the strong signals from anthracene itself observed for 5 but not for 6, demonstrate the importance of triple bonds for strong Raman activity in molecules of this compound class. The energy of the characteristic stretching vibration of the C≡C bonds is significantly dependent on the aromatic moiety between the triple bonds. The insertion of aromatic moieties between two C≡C bonds thus offers an alternative design for dual Raman and fluorescence chromophores, applicable in multiplex biological Raman imaging.
Highlights
One of the most essential tasks of living organisms is the reproduction of their own genome.[1]
The central dogma of molecular biology,[2] which is under ongoing debate,[3,4,5] explains this protein production as a oneway information flow, where DNA is the source of genetic information, DNA sequences are transcribed into RNA and RNA is translated into proteins
The bisethynyl arenes 3N, 4N and 5N were prepared via Sonogashira coupling reactions of A with the respective aryl halides using Pd(PPh3)2Cl2 and CuI as the catalytic system and NEt3 in THF as the base (Scheme 1)
Summary
One of the most essential tasks of living organisms is the reproduction of their own genome.[1]. Extended conjugated polyynes have been employed to shift the energy of the Raman active stretching of the CC bonds systematically, allowing selective labelling and multiplex imaging.[104] The question remained whether these multiple triple bonds need to be directly conjugated to gain the selectivity, or if it is possible to insert various aromatics in between the triple bonds possibly gaining additional selectivity, while maintaining the high Raman signal intensity This is an important question, as current research in bio-applicable Raman-based sensing[105,106] requires a broad choice of dyes, preferably ones suitable for dual Raman and fluorescent operation modes. The much shorter anthracene analogue 6 prepared previously,[60] which showed intriguing live cell imaging properties was studied to test the importance of linker length and rigidity between the two triarylborane units
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