DNA detection based on Mn-doped ZnS quantum dots/methylene blue nanohybrids 被引量：1

DNA detection based on Mn-doped ZnS quantum dots/methylene blue nanohybrids

导出

摘要 Nanohybrids were formed from 3-mercaptopropionic acid （MPA）-coated Mn-doped ZnS quantum dots （QDs） and methylene blue （MB） via electrostatic interaction, and then used in the detection of trace DNA. The principle of detection is as follows： MB binds with Mn-doped ZnS QDs via electrostatic interaction, and then quenches the room temperature phosphorescence （RTP） of the QDs through photoinduced electron-transfer （PIET）. After the addition of DNA, MB binds with DNA through intercalation and electrostatic interaction, and desorbs from the surfaces of Mn-doped ZnS QDs, which recovers the RTP of the QDs. On this basis, a DNA detection method based on the properties of RTP was set up. This method shows a detection range of 0.2-20 mg/L, and a detection limit of 0.113 mg/L. Since this method is based on the RTP of QDs, it is not interfered by the background fluorescence or scattering light in vivo, and thus, avoids complex sample pretreatment. Thus, this method is very feasible for detection of trace DNA in biofluids. Nanohybrids were formed from 3-mercaptopropionic acid （MPA）-coated Mn-doped ZnS quantum dots （QDs） and methylene blue （MB） via electrostatic interaction, and then used in the detection of trace DNA. The principle of detection is as follows： MB binds with Mn-doped ZnS QDs via electrostatic interaction, and then quenches the room temperature phosphorescence （RTP） of the QDs through photoinduced electron-transfer （PIET）. After the addition of DNA, MB binds with DNA through intercalation and electrostatic interaction, and desorbs from the surfaces of Mn-doped ZnS QDs, which recovers the RTP of the QDs. On this basis, a DNA detection method based on the properties of RTP was set up. This method shows a detection range of 0.2-20 mg/L, and a detection limit of 0.113 mg/L. Since this method is based on the RTP of QDs, it is not interfered by the background fluorescence or scattering light in vivo, and thus, avoids complex sample pretreatment. Thus, this method is very feasible for detection of trace DNA in biofluids.

作者 Yan Li Yan-Ming Miao Mao-Qing Yang Yu-Xia Wu Gui-Qin Yan

机构地区 Shanxi Normal University

出处《Chinese Chemical Letters》 SCIE CAS CSCD 2016年第5期773-778,共6页 中国化学快报（英文版）

基金 supported by the Fund for Construction Program of Chemical Advantage and Key discipline of Shanxi Province of China (No. 912019)

关键词 Room temperature phosphorescence Photoinduced electron-transfer DNA Quantum dots Methylene blue Room temperature phosphorescence Photoinduced electron-transfer DNA Quantum dots Methylene blue

分类号 O657.3 [理学—分析化学] TB33 [理学—化学]

引文网络
相关文献

参考文献1

1俞樟森,马锡英,张琪,余斌.ZnS∶Mn/ZnS量子点在DNA定量分析中的应用[J].分析测试学报,2011,30(7):789-794. 被引量：4

二级参考文献19

1王柯敏,王益林,李朝辉,李军,付志英,羊小海.CdTe量子点荧光猝灭法测定铜离子的研究[J].湖南大学学报（自然科学版）,2005,32(3):1-5. 被引量：21
2严拯宇,庞代文,邵秀芬,戴美玲,彭博,胡育筑.功能性硫化锌纳米荧光探针与DNA的相互作用[J].中国药科大学学报,2005,36(5):432-435. 被引量：7
3徐靖,赵应声,吴新国,蔡汝秀.水溶性CdTePCdS量子点荧光探针同步荧光法测定DNA[J].武汉大学学报（理学版）,2006,52(2):129-132. 被引量：7
4WANG L, FU J. One-step aqueous synthesis of CdS nanoparticles as a novel fluorescence probe for the uhrasensitive de- tection ofDNA[J]. J Lumines, 2010, 130(5): 845 -850. 被引量：1
5SUYVER J F, WUISTER S F, KELLY J J. Synthesis and photoluminescence of nanocrystalline ZnS : Mn2 + [ J]. Nano Lett, 2001, 1(8): 429-433. 被引量：1
6SUN H L, FELIX B, PHILIPPE B. Quantitative analysis of nucleic acid hybridization on magnetic particles and quantum dot-based probes[J]. Sensors, 2009, 9 : 5590 - 5599. 被引量：1
7HU H, ZHANG W H. Synthesis and properties of transition metals and rare earth metals doped ZnS nanoparticles [ J ]. Opt Mater, 2006, 28(5) : 536 - 550. 被引量：1
8THAKAR R, CHEN Y C, SNEE P T. Efficient emission from core/(doped) shell nanoparticles: applications for chemical sensing[J]. Nano Lett. 2007. 7(11) : 3429 -3432. 被引量：1
9WU P, HE Y, WANG H F. Conjugation of glucose oxidase onto Mn-doped ZnS quantum dots for phosphorescent sensing of glucose in biological fluids[ J]. Anal Chem, 2010, 82(4) : 1427 - 1433. 被引量：1
10HE Y, WANG H F, YAN X P. Exploring Mn-doped ZnS quantum dots for the room-temperature phosphorescence detection of enoxacin in biological fluids[J]. Anal Chem, 2008, 80(10) : 3832 - 3837. 被引量：1

共引文献3

1李瑜婷,苗艳明,闫桂琴.基于Mn掺杂ZnS量子点室温磷光法检测环丙沙星[J].分析试验室,2015,34(4):401-404. 被引量：4
2杨伯平.ZnSe:Mn/ZnSe纳米晶体中的Mn^(2+)离子扩散[J].化学研究,2016,27(5):565-569.
3邓桂明,郭宇鸽,陈镇,欧阳林旗,张鹤鸣,刘颂豪.ZnS:Mn^(2+)·QDs在定量分析测定中的应用[J].中南药学,2017,15(7):937-939.

同被引文献5

1关瑾,牛秋玲,何传昌,阎峰,石爽.毛细管电泳法测定对乙酰氨基酚的含量[J].华西药学杂志,2013,28(6):615-616. 被引量：8
2沙翠翠,范跃娟,周学莉,王慧霞,靳松,程寒.碳纤维微电极伏安法测定对乙酰氨基酚[J].化学研究,2015,26(4):389-393. 被引量：4
3张金磊,黄广君,兰翠玲,甘永乐,李香,黄梅兰.新铜试剂分光光度法测定片剂中的对乙酰氨基酚含量及其反应机理的研究[J].化学研究与应用,2015,27(10):1518-1522. 被引量：7
4刘益庆,李一,戴铭骏.HPLC-ELSD法测定小儿氨酚烷胺颗粒中对乙酰氨基酚和盐酸金刚烷胺的含量[J].西北药学杂志,2017,32(2):158-160. 被引量：14
5高静飞,安祥,刘广元,张佳佳,丁选胜.含对乙酰氨基酚的感冒药及柴芩清宁胶囊对脂多糖和干酵母大鼠发热模型的解热作用研究[J].药物评价研究,2017,40(2):184-189. 被引量：15

引证文献1

1李波,马静,王浩江,刘文,刁海鹏,卞伟.Mn掺杂ZnS量子点荧光猝灭法测定对乙酰氨基酚[J].化学研究,2018,29(2):141-145. 被引量：5

二级引证文献5

1赵美霞,张志强,乔路路.量子点纳米荧光探针在生物研究中的应用[J].化学研究,2018,29(4):422-428. 被引量：3
2王奕璇.荧光分析法在药物分析中的应用新进展[J].广东化工,2019,46(7):116-117. 被引量：6
3张文韬,黄智泓,郑逸,王毓德.Co掺杂ZnS量子点荧光探针检测水体中Pb^2+和Cu^2+[J].食品安全质量检测学报,2020,11(2):487-492.
4梁奇峰,曾育才,柯国栋.铁(Ⅲ)-邻菲罗啉间接光度法测定对乙酰氨基酚的含量[J].嘉应学院学报,2020,38(3):38-42.
5梁奇峰,金涛.碘-淀粉体系褪色光度法测定感冒药中对乙酰氨基酚的含量[J].嘉应学院学报,2021,39(6):19-22.

1HE Yu,YAN XiuPing.Mn-doped ZnS quantum dots/methyl violet nanohybrids for room temperature phosphorescence sensing of DNA[J].Science China Chemistry,2011,54(8):1254-1259. 被引量：2
2Ming Bo Xu,Tai Ye,Shi Yan Lu,Qin Qin Hu,Juan Zhou,Jian Quan Lu.Synthesis of bovine serum albumin imprinted Mn:ZnS quantum dots[J].Chinese Chemical Letters,2012,23(12):1403-1406. 被引量：1
3崔旭高,张荣,陶志阔,李昕,修向前,谢自力,郑有炓.Optical and Structural Properties of Mn-Doped GaN Grown by Metal Organic Chemical Vapour Deposition[J].Chinese Physics Letters,2009,26(3):276-279.
4E.Salmani,A.Benyoussef,H.Ez-Zahraouy,E.H.Saidi.Magnetic properties of Mn-doped GaN with defects:ab-initio calculations[J].Chinese Physics B,2011,20(8):297-303.
5ZHANG Chao LIU TianXi.A review on hybridization modification of graphene and its polymer nanocomposites[J].Chinese Science Bulletin,2012,57(23):3010-3021. 被引量：5
6李鸿程,周群芳,刘伟,闫兵,赵一兵,江桂斌.量子点毒性效应的研究进展[J].中国科学（B辑）,2008,38(5):396-403. 被引量：20
7WANG Wei & ZHU Jun-Jie State Key Laboratory of Analytical Chemistry for Life Science,School of Chemistry and Chemical Engineering, Nanjing University, Nanjing 210093, China.Optical applications of quantum dots in biological system[J].Science China Chemistry,2011,54(8):1177-1184. 被引量：2
8杨帆,王伶俐,郭志慧.碳量子点对基于能量转移电化学发光DNA传感体系影响的研究[J].化学学报,2012,70(11):1283-1288. 被引量：12
9The electrochemical behavior of hydrogen peroxide sensor based on new methylene blue as mediator[J].化学通报,2006,69(12):881-882.
10Yuxia Zhao,Kuangfei Lin,Wei Zhang,Lili Liu State Environmental Protection Key Laboratory of Environmental Risk Assessment and Control on Chemical Process,Shanghai 200237,China.Quantum dots enhance Cu^(2+)-induced hepatic L02 cells toxicity[J].Journal of Environmental Sciences,2010,22(12):1987-1992. 被引量：5

Chinese Chemical Letters

2016年第5期

浏览历史

内容加载中请稍等...