A search of the GenBank also revealed significant homologies among these hemolysin genes http://www.ncbi.nih.gov/BLAST. Additionally, Croci et al. [29] evaluated several PCR assays for the identification of V. parahaemolyticus by targeting different genes. Among 48 V. parahaemolyticus and 115 other Vibrio spp. strains examined, the two tlh-based PCR protocols
[13, 14] obtained 100% inclusivity but had 50% and 91% exclusivity, respectively. In contrast, a toxR-based PCR assay [18] simultaneously evaluated in the same study achieved 100% for both inclusivity and exclusivity [29]. The toxR gene was initially described in V. cholerae as the regulatory gene for the cholera toxin and other virulence determinants QNZ [30], and was subsequently found in V. parahaemolyticus [31]. Although present in many Vibrio spp., a membrane “”tether”" region within the
coding sequence of toxR possesses significant heterogeneity and could be used to distinguish various Vibrio species [32]. The objective of this study was to develop a highly INK1197 manufacturer specific and sensitive toxR-based LAMP assay for the detection Enzalutamide of V. parahaemolyticus in raw oyster samples. Results Specificity of the LAMP assay The V. parahaemolyticus toxR-based LAMP assay run on two platforms by using either a real-time PCR machine or a real-time turbidimeter successfully detected 36 V. parahaemolyticus strains while showing negative results for 39 non- V. parahaemolyticus strains (Table 1), indicating that the toxR-based LAMP assay was highly specific. On the real-time PCR platform, mean cycle threshold (Ct; cycles when fluorescence signals reach 30 units) values for the 36 V. parahaemolyticus clinical and environmental strains ranged between 13.58 and 23.95 min, with an average of 17.54 ± 2.27 min. The melting temperatures (Mt) for these strains consistently fell between 81.25 Ribonuclease T1 and 82.55°C, with an average Mt of 81.97 ± 0.25°C. For the 39 non- V. parahaemolyticus strains, no Ct value was obtained, with melting curve analysis showing no peaks, suggesting no amplification occurred. Table 1 Bacterial strains used in this study Strain
group Strain ID and serotype a Source and reference V. parahaemolyticus ATCC 17802; O1:K1 Shirasu food poisoning, Japan (n = 36) ATCC 27969 Blue crab, Maryland ATCC 33847 Gastroenteritis, Maryland ATCC 49529; O4:K12 Feces, California CT-6636; O3:K6 Clinical, Connecticut M350A; O5 Oyster, Washington NY477; O4:K8 Oyster, New York TX-2103; O3:K6 Clinical, Texas 8332924; O1:K56 Oyster, Gulf of Mexico 83AO8757 Clinical, feces 83AO9148 Clinical, feces 83AO9756; O4:K12 Clinical, feces 84AO1516; O4:K12 Clinical, feces 84AO4226 Clinical, feces 916i, 916e, 541-0-44c, V68, V69, V154, V155, V166 Oyster, Gulf, Louisiana [10] V5, V15, V16, V32, V38, V39, V50, V86, V150, V426, V427, V428, V429, V430 Oyster, Retail, Louisiana [10] V.