Wan Hongdan, Zhang Shuai, Gu Yu, Xiong Jinxin, Xu Ji, Wan Cheng, Chao Jie
Nanjing University of Posts and Telecommunications, #9 Wenyuan Road, Nanjing, 210000, China.
Jiangsu Key Laboratory for Biosensors, Institute of Advanced Materials, National Synergetic Innovation Center for Advanced Materials, Nanjing, China.
Nanophotonics. 2023 Jun 20;12(16):3323-3331. doi: 10.1515/nanoph-2023-0238. eCollection 2023 Aug.
This study proposes and demonstrates a novel label-free DNA biosensor using high quality optical microcavity functionalized by 3D DNA nanostructure probes. To achieve ultra-low limit DNA biosensing, optical sensing interface of the hollow-core, thin wall-thickness microcavity was functionalized by self-assembled DNA tetrahedral nanostructure (DTN) probes with size of 17 bp and length of ∼5.8 nm. High efficiency binding of the DTN probes with the optical sensor interface and the target ssDNA are achieved. Whispering gallery mode (WGM) spectra with high- factor of >10 are excited and traced for DNA detection inside the microfluidic channel of the microcavity, with a small sample volume of nL. Incorporation of nanoscale DTN probes onto surface of the optical microcavity makes it an effective way for increasing efficient probe density and eliminating entanglement between DNA probes, thus ∼1000 times lower detection limit is achieved as compared to using 1D ssDNA probes. Due to its desirable merits of label-free, ultra-low LoD, real time and compact size, the proposed DNA biosensor has broad application prospects in bioengineering and medical diagnosis.
本研究提出并展示了一种新型的无标记DNA生物传感器,该传感器使用由3D DNA纳米结构探针功能化的高质量光学微腔。为实现超低限DNA生物传感,通过尺寸为17 bp、长度约为5.8 nm的自组装DNA四面体纳米结构(DTN)探针,对空心、薄壁微腔的光学传感界面进行功能化。实现了DTN探针与光学传感器界面以及目标单链DNA的高效结合。激发并追踪品质因数大于10的回音壁模式(WGM)光谱,用于在微腔微流控通道内进行DNA检测,样品体积小至纳升。将纳米级DTN探针整合到光学微腔表面,使其成为增加有效探针密度和消除DNA探针之间缠结的有效方法,因此与使用一维单链DNA探针相比,检测限降低了约1000倍。由于其具有无标记、超低检测限、实时和紧凑尺寸等优点,所提出的DNA生物传感器在生物工程和医学诊断中具有广阔的应用前景。
