Sensitive Detection of BRCA1 Gene Based on Target Proximity Induced Quenching of the Fluorescence of Copper Nanoclusters

Hu, Jing; Yang, Tong; Li, Zhengjia; Xiao, Bo; Yu, Peng

doi:10.21577/0103-5053.20220154

Jing Hu

carry out the experiments

School of Materials Science and Engineering, Xiangtan University, Xiangtan 411105, China

https://orcid.org/0000-0002-3195-8049

Tong Yang

manuscript writing and edition

School of Materials Science and Engineering, Xiangtan University, Xiangtan 411105, China

Zhengjia Li

manuscript writing and edition

School of Materials Science and Engineering, Xiangtan University, Xiangtan 411105, China

Bo Xiao

data analysis

School of Materials Science and Engineering, Xiangtan University, Xiangtan 411105, China

Peng Yu *e-mail: yupeng@xtu.edu.cn^**e-mail: yupeng@xtu.edu.cn

funding acquisition

project administration and supervision

School of Materials Science and Engineering, Xiangtan University, Xiangtan 411105, China

*e-mail: yupeng@xtu.edu.cn

Editor handled this article: Emanuel Carrilho (Associate)

Figures (6)
Tables (1)

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Figure 1
Schematic illustration of the fluorescent sensor based on DNA-CuNCs and its application for the BRCA1 gene assay.

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Figure 2
(A) The effect of the length of poly(AT-TA) in the template dsDNA on the fluorescence intensity; inset: a zoomed-in view of the data; (B) the relationship between F_blank - F_BRCA1 (a) or F_BRCA1/F_blank (b) and the length of poly(AT-TA) in the template dsDNA; F_blank and F_BRCA1 are the fluorescence intensities without and with the presence of T-DNA, respectively.

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Figure 3
(A) The fluorescence excitation (a), emission (b) and UV-Vis absorption (c) spectra of CuNCs using DNA10 as the template DNA. (B) Temporal change in fluorescence intensity at 580 nm with Cu²⁺ and without Cu²⁺; TEM images of the freshly prepared CuNCs (C) and the CuNCs stored at 4 ºC for 7 days (D).

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Figure 4
(a) The fluorescence spectra of the system without BRCA1 and with BRCA1; inset: the photographs of the reaction system in the presence (left) and absence (right) of BRCA1 gene under the UV lamp (365 nm); the effect of C_dsDNA (b), C_Cu²⁺ (c) and C_AA (d) on the fluorescence intensity.

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Figure 5
(a) The fluorescence spectra of the sensor for the detection of BRCA1 gene with different concentrations: 0, 2, 20, 100, 200, 400, 500, 600, 1000, 1500, 2000, 4000, 6000, 7000, 8000, 9000 nM. (b) Plots of the fluorescence intensities as a function of concentrations of BRCA1 gene (C_BRCA1). Inset: linear calibration plot for BRCA1 gene. Error bars were obtained from three parallel experiments.

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Figure 6
Selectivity of the sensing strategy for the BRCA1 gene assay. Fluorescence intensities of the detection system in the presence of BRCA1 gene, Sm-DNA, Twm-DNA, Thm-DNA and N-DNA, respectively. The concentration of the mismatched DNA was fixed at 2000 nM.

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Table 1
Comparison of the assay performance of different sensors for DNA detection

Sensing element	Technique	Target	Linear range / nM	LOD / nM	Reference
Molecular beacon	fluorescence	DNA	200-5000	70	¹⁷17 Culha, M.; Stokes, D. L.; Griffin, G. D.; Vo-Dinh, T.; Biosens. Bioelectron. 2004, 19, 1007. [Crossref] Crossref...
AgNCs	fluorescence	BRCA1	1-1000	1	³⁹39 Teng, Y.; Tateishi-Karimata, H.; Tsuruoka, T.; Sugimoto, N.; Molecules 2018, 23, 2889. [Crossref] Crossref...
CuNCs	fluorescence	DNA	0.0005-0.1	0.00054	⁴⁰40 Tao, Y.; Yi, K.; Wang, H.; Li, K.; Li, M.; Sens. Actuators, B 2022, 361, 131711. [Crossref] Crossref...
AuNCs			0-1	0.16241
AgNCs			0-2	0.07824
AuNPs and carbon dots	fluorescence	BRCA1	4-120	2.1	⁴¹41 Zhong, D.; Yang, K.; Wang, Y.; Yang, X.; Talanta 2017, 175, 217. [Crossref] Crossref...
AgNCs	luminescence	mutant DNA	-	53	⁴²42 Wang, M.; Wang, W.; Liu, C.; Liu, J.; Kang, T.-S.; Leung, C.-H.; Ma, D.-L.; Mater. Chem. Front. 2017, 1, 128. [Crossref] Crossref...
AgNCs	luminescence	BRCA1	10-80	9	⁴³43 Wang, F.; Sharon, E.; Albada, H. B.; Willner, I.; ACS Nano 2014, 8, 11666. [Crossref] Crossref...
Cyclometallated iridium(III) complex	luminescence	gene	0-500	50	⁴⁴44 He, H.-Z.; Chan, D. S.-H.; Leung, C.-H.; Ma, D.-L.; Chem. Commun. 2012, 48, 9462. [Crossref] Crossref...
γPNA arrays	fluorescence	BRCA1	0-2000	5.97	⁴⁵45 Dong, B.; Nie, K.; Shi, H.; Chao, L.; Ma, M.; Gao, F.; Liang, B.; Chen, W.; Long, M.; Liu, Z.; Biosens. Bioelectron. 2019, 136, 1. [Crossref] Crossref...
Perylene-labeled DNA probes	fluorescence	BRCA1	-	100	⁴⁶46 Kashida, H.; Kondo, N.; Sekiguchi, K.; Asanuma, H.; Chem. Commun. 2011, 47, 6404. [Crossref] Crossref...
Carbon nanotubes	electrochemistry	BRCA1	161-1937	378.5	⁶6 Li, C.-z.; Karadeniz, H.; Canavar, E.; Erdem, A.; Electrochim. Acta 2012, 82, 137. [Crossref] Crossref...
Monolithic silicon	fluorescence	BRCA1	1-500	0.9	⁴⁷47 Mavrogiannopoulou, E.; Petrou, P. S.; Kakabakos, S. E.; Misikakos, K.; Biosens. Bioelectron. 2009, 24, 1341. [Crossref] Crossref...
DNA	electrochemistry	BRCA1	0.1-10	0.05	⁴⁸48 Xu, H.; Wang, L.; Ye, H.; Yu, L.; Zhu, X.; Lin, Z.; Wu, G.; Li, X.; Liu, X.; Chen, G.; Chem. Commun. 2012, 48, 6390. [Crossref] Crossref...
CuNCs	fluorescence	BRCA1	2-600	2	this work

[1] *e-mail: yupeng@xtu.edu.cn

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Sensitive Detection of BRCA1 Gene Based on Target Proximity Induced Quenching of the Fluorescence of Copper Nanoclusters