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Journal Abstract Search

333 related items for PubMed ID: 24446758

  • 41. A WS2 nanosheet based sensing platform for highly sensitive detection of T4 polynucleotide kinase and its inhibitors.
    Ge J, Tang LJ, Xi Q, Li XP, Yu RQ, Jiang JH, Chu X.
    Nanoscale; 2014 Jun 21; 6(12):6866-72. PubMed ID: 24830570
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  • 42. High specific and ultrasensitive isothermal detection of microRNA by padlock probe-based exponential rolling circle amplification.
    Liu H, Li L, Duan L, Wang X, Xie Y, Tong L, Wang Q, Tang B.
    Anal Chem; 2013 Aug 20; 85(16):7941-7. PubMed ID: 23855808
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  • 43. Intracellular MicroRNA Imaging with MoS2-Supported Nonenzymatic Catassembly of DNA Hairpins.
    Zhu D, Huang J, Lu B, Zhu Y, Wei Y, Zhang Q, Guo X, Yuwen L, Su S, Chao J, Wang L.
    ACS Appl Mater Interfaces; 2019 Jun 12; 11(23):20725-20733. PubMed ID: 31117454
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  • 44. Lab in a tube: ultrasensitive detection of microRNAs at the single-cell level and in breast cancer patients using quadratic isothermal amplification.
    Duan R, Zuo X, Wang S, Quan X, Chen D, Chen Z, Jiang L, Fan C, Xia F.
    J Am Chem Soc; 2013 Mar 27; 135(12):4604-7. PubMed ID: 23445447
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  • 45. DNA-fueled molecular machine enables enzyme-free target recycling amplification for electronic detection of microRNA from cancer cells with highly minimized background noise.
    Shi K, Dou B, Yang C, Chai Y, Yuan R, Xiang Y.
    Anal Chem; 2015 Aug 18; 87(16):8578-83. PubMed ID: 26194786
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  • 46. A dual target-recycling amplification strategy for sensitive detection of microRNAs based on duplex-specific nuclease and catalytic hairpin assembly.
    Hao N, Dai PP, Yu T, Xu JJ, Chen HY.
    Chem Commun (Camb); 2015 Sep 11; 51(70):13504-7. PubMed ID: 26216522
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  • 47. WS2 nanosheets-based electrochemical biosensor for highly sensitive detection of tumor marker miRNA-4484.
    Li D, Wei H, Hong R, Yue X, Dong L, Fan K, Yu J, Yao D, Xu H, Lu J, Wang G.
    Talanta; 2024 Jul 01; 274():125965. PubMed ID: 38552480
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  • 48. Multiplexed fluorometric determination for three microRNAs in acute myocardial infarction by using duplex-specific nuclease and MoS2 nanosheets.
    Zhu X, Wang K, Jin Y, Wang S, Liu X, Liu H, Zhou P, Yang C, Han Z.
    Mikrochim Acta; 2019 Dec 04; 187(1):15. PubMed ID: 31802245
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  • 49. Graphene surface-anchored fluorescence sensor for sensitive detection of microRNA coupled with enzyme-free signal amplification of hybridization chain reaction.
    Yang L, Liu C, Ren W, Li Z.
    ACS Appl Mater Interfaces; 2012 Dec 04; 4(12):6450-3. PubMed ID: 23182299
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  • 50. Ultrasensitive Detection of MicroRNA via a Au@Ag Nanosnowman.
    Zhao Y, Gao XY, Wang H, Wang J, Zhou J, Zhao W, Xu JJ, Chen HY.
    Anal Chem; 2019 Dec 17; 91(24):15988-15992. PubMed ID: 31718153
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  • 51. Short-probe-based duplex-specific nuclease signal amplification strategy enables imaging of endogenous microRNAs in living cells with ultrahigh specificity.
    Ma Y, Chen J, Chen D, Xu Y, Zhang L, Dai Z, Zou X.
    Talanta; 2018 Aug 15; 186():256-264. PubMed ID: 29784358
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  • 52. Target-triggered three-way junction structure and polymerase/nicking enzyme synergetic isothermal quadratic DNA machine for highly specific, one-step, and rapid microRNA detection at attomolar level.
    Zhang Q, Chen F, Xu F, Zhao Y, Fan C.
    Anal Chem; 2014 Aug 19; 86(16):8098-105. PubMed ID: 25072308
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  • 53. Tungsten disulfide (WS2) nanosheet-based photoelectrochemical aptasensing of chloramphenicol.
    Zhou Y, Sui C, Yin H, Wang Y, Wang M, Ai S.
    Mikrochim Acta; 2018 Sep 12; 185(10):453. PubMed ID: 30209622
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  • 54. A highly sensitive target-primed rolling circle amplification (TPRCA) method for fluorescent in situ hybridization detection of microRNA in tumor cells.
    Ge J, Zhang LL, Liu SJ, Yu RQ, Chu X.
    Anal Chem; 2014 Feb 04; 86(3):1808-15. PubMed ID: 24417222
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  • 55. A G-quadruplex DNA-based, label-free and ultrasensitive strategy for microRNA detection.
    Yan L, Yan Y, Pei L, Wei W, Zhao J.
    Sci Rep; 2014 Dec 10; 4():7400. PubMed ID: 25492390
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  • 56. DNA nanostructures from palindromic rolling circle amplification for the fluorescent detection of cancer-related microRNAs.
    Xu H, Zhang S, Ouyang C, Wang Z, Wu D, Liu Y, Jiang Y, Wu ZS.
    Talanta; 2019 Jan 15; 192():175-181. PubMed ID: 30348375
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  • 57. Lateral flow nucleic acid biosensor for sensitive detection of microRNAs based on the dual amplification strategy of duplex-specific nuclease and hybridization chain reaction.
    Ying N, Ju C, Sun X, Li L, Chang H, Song G, Li Z, Wan J, Dai E.
    PLoS One; 2017 Jan 15; 12(9):e0185091. PubMed ID: 28945768
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  • 58. Highly Sensitive Detection of miRNA-155 Using Molecular Beacon-Functionalized Monolayer MoS₂ Nanosheet Probes with Duplex-Specific Nuclease-Mediated Signal Amplification.
    Liu Y, Ding Z, Zhang J, Song C, Zhang L, Liu Y.
    J Biomed Nanotechnol; 2021 Jun 01; 17(6):1034-1043. PubMed ID: 34167618
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  • 59. Highly Sensitive Detection of Multiple MicroRNAs by High-Performance Liquid Chromatography Coupled with Long and Short Probe-Based Recycling Amplification.
    Qi T, Song C, He J, Shen W, Kong D, Shi H, Tan L, Pan R, Tang S, Lee HK.
    Anal Chem; 2020 Apr 07; 92(7):5033-5040. PubMed ID: 32154708
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  • 60. Multiple amplification detection of microRNA based on the host-guest interaction between β-cyclodextrin polymer and pyrene.
    Guo X, Yang X, Liu P, Wang K, Wang Q, Guo Q, Huang J, Li W, Xu F, Song C.
    Analyst; 2015 Jun 21; 140(12):4291-7. PubMed ID: 25943710
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