研究目的
Development of a novel paper-based genoassay for monitoring Legionella penumophila using silver-graphene quantum dots (Ag/GQDs) ink modified by gold nanoparticles grafted by Cysteamine A (CysA/AuNPs) for ssDNA immobilization and hybridization by cDNA.
研究成果
A novel nanomaterial improved paper-based genosensor for facile and inexpensive detection of L. penumophila was developed. The engineered paper-based nanobiosensor is an exceptional biodevice for detection of specific sequence of mip gene from L. penumophila with a detection limit of 1 ZM and linear range of 1 μM to 1 ZM.
研究不足
The stability of the fabricated genosensor is acceptable up to 2h. The genosensor should be used immediately after preparation.
1:Experimental Design and Method Selection
A novel paper-based genoassay was developed for monitoring of L. penumophila. Silver-graphene quantum dots (Ag/GQDs) ink was synthesized and used for construction of new substrate. The interface was modified by gold nanoparticles grafted by Cysteamine A (CysA/AuNPs) for ssDNA immobilization and hybridization by cDNA.
2:Sample Selection and Data Sources
Oligonucleotide sequences including probe l. pneumophila and complementary target sequence were obtained from Takapouzist Co. (Iran).
3:List of Experimental Equipment and Materials
FE-SEM, EDS, AFM, TEM, PalmSens 4c system, Pt wire as a counter electrode, Ag/AgCl as a reference electrode, Ag/RGO paper electrode as a working electrode.
4:Experimental Procedures and Operational Workflow
Synthesis of Ag/GQDs conductive nano-ink, fabrication of Ag/GQDs-CysA/Au NPs paper-based electrode, genosensor assembly, optimization of incubation time by TB, optimization of hybridization time of cDNA, analytical study, stability assessment, selectivity study.
5:Data Analysis Methods
Chronoamperometry technique was used for the measurement of target cDNA. The interaction between DNA probes and complementary sequence was evaluated using Ag/GQDs nano-ink modified by CysA-AuNPs.
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