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Staphylococcus aureus was listed as the 2nd common food-borne pathogens,resulting in diseases such as pneumonia,pseudomembranous colitis,pericarditis and even sepsis.A rapid,simple and sensitive detection method is required to monitor food in cases of contamination by S.aureus.Hence,a novel immunochromatographic test strip(ICTS),based on the two-component reaction(i.e.digoxigenin and anti-digoxigenin,quantum dots-conjugated streptavidin and biotin)in test line with QDs as indicator,was developed for the rapid and sensitive detection of S.aureus.Genomic DNA from bacteria lysis by boiling was extracted easily and rapidly with silica-coated magnetic nanoparticles,and a species-specific gene was amplified by PCR using digoxigenin/biotin-labeled primers.The fluorescence of captured QD labels on the test line and control line served as signals was observed by UV light.The sensitivity and specificity of the ICTS were estimated using bacteria spiked food samples(artificially mixed with cell counts(108 CFU/mL for each bacterium)of Escherichia coli,Listeria monocytogenes and Lactobacillus plantarum).The limit of detection for S.aureus was 3 ×100 CFU/mL and 3 ×101 CFU/g in spiked milk powder and meat samples,respectively,which was not affected by those non-S.aureus strains.Our results showed that QDs-based ICTS was promising for rapid and sensitive detection of S.aureus within 2 h.Hence,this protocol might be useful for screening and monitoring the contamination of S.aureus in food products,and helpful for promoting the prevention and control of communicable disease caused by food-borne pathogen.