Colorimetric/fluorogenic detection of thiols by N-fused porphyrin in water.

A water-soluble derivative of N-fused porphyrin (NFP) possessing four cationic side-arms (pPyNFP) serves as a unique class of colorimetric/fluorogenic reporters that selectively react with biothiols in aquaous media to afford N-confused porphyrin (NCP) derivatives, while other nucleophilic amino acids were inert under a wide range of pH conditions. Owing to the large difference of the optical properties between NCP and NFP, the transformation enabled selective detection of biothiols in colorimetric/fluorogenic manner, especially in the near-infrared region. To the best our knowledge, this is the first example of porphyrin-based thiol detection systems that use the direct attack of thiol group on the optical reporter.

N-fused porphyrin with pyridinium side-arms: a new class of aromatic ligand with DNA-binding ability.

N-fused porphyrin (NFP) is a porphyrin analogue with an 18π tetrapyrrolic macrocycle, in which a unique tripentacyclic ring is embedded. While the optical properties of NFP of absorbing and emitting near-infrared (NIR) light around 1000 nm are promising for its application to NIR technology, its unique structure is also attractive as a platform to construct a novel class of DNA-binding ligands. Herein, we have synthesized a water-soluble derivative of NFP (pPyNFP) possessing four cationic pyridinium substituents and examined its acid/base behaviors and interactions with various forms of DNAs in aqueous solution. pPyNFP interacts with ssDNA and dsDNA electrostatically. pPyNFP also interacts with a G-quadruplex DNA derived from the human telomeric sequence and causes a characteristic spectral change of the G-quadruplex DNA, which suggests that pPyNFP modulates the Na(+)-induced (2 + 2) antiparallel G-quadruplex to the all-parallel structure.