Herein, we described a ratiometric strategy based on "chameleon" DNA-silver nanoclusters( DNA-AgNCs) fluorescent binary probes. The strategy was applied to detect high-risk human papillomavirus( HPV) DNA seq...Herein, we described a ratiometric strategy based on "chameleon" DNA-silver nanoclusters( DNA-AgNCs) fluorescent binary probes. The strategy was applied to detect high-risk human papillomavirus( HPV) DNA sequences, HPV-16. First, DNA-AgNCs were synthesized by a simple reduction method. The obtained nanoprobes showed typical yellow and red fluorescence of AgNCs. Upon the addition of HPV-16 DNA, the yellow fluorescence of AgNCs was reduced greatly, whereas tlie red fluorescence of AgNCs was increased. The concentration of HPV-16 DNA in the samples was characterized by the ratio of fluorescence intensity at 570 and 630 nm. Tlie ratiometric nanoprobes showed good selectivity for HPV-16 DNA, and the detection limit was 2 ninol/L. In addition, the practical applicability of this strategy was demonstrated by analysing the HPV-16 DNA in hiunan serum, illustrating its potential promise for clinical diagnosis.展开更多
基金Supported by the National Natural Science Foundation of China(Nos.21675047, 21735002, 21521063)the Key Point Research and Invention Program of Hunan Province, China(No.2017DK2011).
文摘Herein, we described a ratiometric strategy based on "chameleon" DNA-silver nanoclusters( DNA-AgNCs) fluorescent binary probes. The strategy was applied to detect high-risk human papillomavirus( HPV) DNA sequences, HPV-16. First, DNA-AgNCs were synthesized by a simple reduction method. The obtained nanoprobes showed typical yellow and red fluorescence of AgNCs. Upon the addition of HPV-16 DNA, the yellow fluorescence of AgNCs was reduced greatly, whereas tlie red fluorescence of AgNCs was increased. The concentration of HPV-16 DNA in the samples was characterized by the ratio of fluorescence intensity at 570 and 630 nm. Tlie ratiometric nanoprobes showed good selectivity for HPV-16 DNA, and the detection limit was 2 ninol/L. In addition, the practical applicability of this strategy was demonstrated by analysing the HPV-16 DNA in hiunan serum, illustrating its potential promise for clinical diagnosis.