Abstract:A method combining real-time fluorescence detection with saltatory rolling circle amplification（RFSRCA）was established in this study for rapid Shigella detection.Primers for this method were designed complementary to Shigella's ipaH gene.A total of 32 different strains were assessed to analyze specificity.Sensitivity and detection limit were determined according to the real-time fluorescence curve method.RF-SRCA was used to test 60 food samples for Shigella.Thirteen Shigella strains gave positive results and negative results were obtained from 19 non-Shigella strains，indicated that the method confers good specificity.The sensitivity of RFSRCA was 5.97×100fg/μL，10 times higher than that of SRCA.The detection limit in artificially contaminated milk samples using RF-SRCA was 8.6×100CFU/mL，which was 10 times lower than the limit using SRCA.Two positive samples were detected from among 60 food samples.The detection rate of RF-SRCA was 3.33%，consistent with that of SRCA.In summary，RF-SRCA offered ease of operation，strong specificity，high sensitivity，and a low detection limit when used for rapid detection of Shigella.