Positively Charged Hyperbranched Polymers with Tunable Fluorescence and Cell Imaging Application.
Hengchang MaYanfang QinZengming YangManyi YangYucheng MaPei YinYuan YangTao WangZiqiang LeiXiaoqiang YaoPublished in: ACS applied materials & interfaces (2018)
Fluorescence-tunable materials are becoming increasingly attractive because of their potential applications in optics, electronics, and biomedical technology. Herein, a multicolor molecular pixel system is realized using a simple copolymerization method. Bleeding of two complementary colors from blue and yellow fluorescence segments reproduced serious multicolor fluorescence materials. Interestingly, the emission colors of the polymers can be fine-tuned in the solid state, solution phase, and in hydrogel state. More importantly, the positive fluorescent polymers exhibited cell-membrane permeable ability and were found to accumulate on the cell nucleus, exhibiting remarkable selectivity to give bright fluorescence. The DNA/RNA selectivity experiments in vitro and in vivo verified that [tris(4-(pyridin-4-yl)phenyl)amine]-[1,8-dibromooctane] has prominent selectivity to DNA over RNA inside cells.
Keyphrases
- single molecule
- energy transfer
- solid state
- living cells
- single cell
- quantum dots
- cell therapy
- induced apoptosis
- circulating tumor
- high resolution
- drug delivery
- cell free
- air pollution
- mesenchymal stem cells
- atrial fibrillation
- nucleic acid
- stem cells
- climate change
- signaling pathway
- oxidative stress
- mass spectrometry
- cell cycle arrest
- photodynamic therapy
- light emitting
- human health
- circulating tumor cells
- fluorescence imaging