Hybrid material of structural DNA with inorganic compound: synthesis, applications, and perspective.
Seung Won ShinJi Soo YukSang Hun ChunYong Taik LimSoong Ho UmPublished in: Nano convergence (2020)
Owing to its precise manipulation in nanoscale, DNA as a genetic code becomes a promising and generic material in lots of nanotechnological outstanding exploitations. The nanoscale assembly of nucleic acids in aqueous solution has showed very remarkable capability that is not achievable from any other material resources. In the meantime, their striking role played by effective intracellular interactions have been identified, making these more attractive for a variety of biological applications. Lately, a number of interesting attempts have been made to augment their marvelous diagnostic and therapeutic capabilities, as being integrated with inorganic compounds involving gold, iron oxide, quantum dot, upconversion, etc. It was profoundly studied how structural DNA-inorganic hybrid materials have complemented with each other in a synergistic way for better-graded biological performances. Such hybrid materials consisting of both structural DNAs and inorganics are gradually receiving much attention as a practical and future-oriented material substitute. However, any special review articles highlighting the significant and innovative materials have yet to be published. At the first time, we here demonstrate novel hybrid complexes made of structural DNAs and inorganics for some practical applications.
Keyphrases
- circulating tumor
- cell free
- single molecule
- aqueous solution
- iron oxide
- photodynamic therapy
- atomic force microscopy
- nucleic acid
- water soluble
- gene expression
- randomized controlled trial
- current status
- circulating tumor cells
- systematic review
- reactive oxygen species
- mass spectrometry
- perovskite solar cells
- quantum dots