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- Title
A nucleolin-activated polyvalent aptamer nanoprobe for the detection of cancer cells.
- Authors
Zhang, Ruyan; Zhang, Zhiqing; Du, Huan; Wang, Jiawei; Wang, Xiufeng; Zhou, Ting; Wang, Fang
- Abstract
Sensitive detection of cancer cells plays a critical role in early cancer diagnosis. Nucleolin, overexpressed on the surface of cancer cells, is regarded as a candidate biomarker for cancer diagnosis. Thus, cancer cells can be detected through the detection of membrane nucleolin. Herein, we designed a nucleolin-activated polyvalent aptamer nanoprobe (PAN) to detect cancer cells. In brief, a long single-stranded DNA with many repeated sequences was synthesized through rolling circle amplification (RCA). Then the RCA product acted as a scaffold chain to combine with multiple AS1411 sequences, which was doubly modified with fluorophore and quenching group, respectively. The fluorescence of PAN was initially quenched. Upon binding to target protein, the conformation of PAN changed, leading to the recovery of fluorescence. The fluorescence signal of cancer cells treated with PAN was much brighter compared with that of monovalent aptamer nanoprobes (MAN) at the same concentration. Furthermore, the binding affinity of PAN to B16 cells was proved to be 30 times higher than that of MAN by calculating the dissociation constants. The results indicated that PAN could specifically detect target cells, and this design concept has potential to become promising in cancer diagnosis.
- Subjects
CANCER cells; EARLY detection of cancer; SINGLE-stranded DNA; CARRIER proteins; NUCLEOLIN; APTAMERS; CANCER diagnosis
- Publication
Analytical & Bioanalytical Chemistry, 2023, Vol 415, Issue 12, p2217
- ISSN
1618-2642
- Publication type
Article
- DOI
10.1007/s00216-023-04629-3