Background: The sensitivity and selectivity of traditional methods limits ultramicro detection of proteins. Bio-barcode amplification detection methods based on nanotechnology enables ultramicro detection of protein. However, bio-barcode amplification detection depends on the oligonucleotides being fixed on a glass chip. It also requires specialized equipment, which limits its application. We introduce a nanonucleic acid barcode dot detection technology to determine ultramicro concentrations of protein. The method is simple, quick and accurate. Methods: Magnetic probe (IgG-M) and dual-labeled gold nanoparticle bio-probe (IgG-Au-DNA) were prepared. Protein was captured using a sandwich assay technique and magnetic separation was used. The DNA barcode was released with dithiothreitol (DTT) and detected directly without the requirement for polymerase chain reaction (PCR). Serum prostate-specific antigen (PSA) from 135 patients was detected with this method and compared with enzyme linked immunosorbent assay (ELISA) and radioimmunoassay (RIA). Results: Each IgG-Au-DNA could be covered with 138"47 oligonucleotides and 11"3 antibodies. The IgG-M could
A novel method of one-step preparation of dual-labeled gold nanoparticle bio-probes was established by the electrostatic adsorption and the covalent bonding of gold nanoparticles with antibodies and thiol-modified oligonucleotides, respectively. Characterization of probes, the coverage and activity of antibodies and oligonucleotides on probe surfaces were detected. The results indicated that the gold nanoparticles labeled with antibodies and oligonucleotides possess good bioactivity and the coverage of oligonucleotide and antibody on a dual-labeled gold nanoparticle bio-probe was (92 +/- 20) and (8 +/- 3), respectively. The preparative method is simple and stable. The dual-labeled gold nanoparticle bio-probes have an application value in detection of ultramicro protein.
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