通过与 DNA 的可控共价键合来创建具有改进的光学性质的线性碳点阵列。
Creation of Linear Carbon Dot Array with Improved Optical Properties through Controlled Covalent Conjugation with DNA.
机构信息
Department of Chemistry , IIT Patna, Bihta , Patna 801103 , India.
National Centre for Cell Science , Pune 411007 , Maharashtra , India.
出版信息
Bioconjug Chem. 2018 May 16;29(5):1500-1504. doi: 10.1021/acs.bioconjchem.8b00173. Epub 2018 Apr 12.
Abstract
Controlled conjugation of fluorescent carbon dots (CDs) with DNA and subsequent fabrication of the CDs into an array through hybridization mediated self-assembly in the solution phase is reported. Covalent conjugation of CD with DNA and the subsequent array formation change the mobility of the CD-DNA array in gel electrophoresis and HPLC significantly. Interspatial distance in the CD-DNA array is tuned by the DNA sequence length and maintained at ∼8 ± 0.3 nm as revealed by electron microscopy studies. An increase in fluorescence lifetime by ∼2 ns was observed for the CD-DNA array compared to a solitary CD, vis-á-vis better imaging prospects of HEK293 cells by the former. Thus, the array displays improved fluorescence and unhindered cell penetration.
摘要
报告了通过在溶液相中通过杂交介导的自组装将荧光碳点(CDs)与 DNA 进行受控共轭,然后将 CDs 制成阵列。CD 与 DNA 的共价共轭以及随后的阵列形成显著改变了 CD-DNA 阵列在凝胶电泳和 HPLC 中的迁移率。通过电子显微镜研究发现,CD-DNA 阵列中的空间距离可通过 DNA 序列长度进行调节,并保持在约 8±0.3nm。与孤立的 CD 相比,CD-DNA 阵列的荧光寿命增加了约 2ns,这表明前者对 HEK293 细胞具有更好的成像前景。因此,该阵列显示出改善的荧光和不受阻碍的细胞穿透性。
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