Incorporation of duplex DNA with higher molecular weights has attracted attention for a new opportunity towards a better organic light-emitting diode (OLED) capability. However, biological recognition by OLED materials is yet to be addressed. In this study, specific oligomeric DNA–DNA recognition is successfully achieved by tri (8-hydroxyquinoline) aluminium (Alq3), an organic semiconductor. Alq3 rods crystallized with guidance from single-strand DNA molecules show, strikingly, a unique distribution of the DNA molecules with a shape of an ‘inverted' hourglass. The crystal's luminescent intensity is enhanced by 1.6-fold upon recognition of the perfect-matched target DNA sequence, but not in the case of a single-base mismatched one. The DNA–DNA recognition forming double-helix structure is identified to occur only in the rod's outer periphery. This study opens up new opportunities of Alq3, one of the most widely used OLED materials, enabling biological recognition.
By utilizing the
capillary-force-driven action, a novel polydiacetylene-based
sensor on the porous silica plate was developed within 30 s for π-diacetylene
monomers with variable chain lengths. This method enables one to utilize
diacetylene monomers even with the shorter alkyl chain length of C18–C21,
which has not been possible with conventional methods. The invented
sensor platform employing shorter monomers was found to perform better,
as was demonstrated for gaseous and aqueous analytes, i.e., ammonia
gas and nucleic acids in aqueous phase. This new polydiacetylene platform
opens up the development of quick and easy fabrication and the use
of chemical and biochemical chips.
We fabricated a polydiacetylene lipid/human olfactory receptor nano-assembly for the “visualization of odorant detection” upon specific interaction with the target odorant, triggering a colorimetric transition and a distinctive fluorescence increase.
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