Development of Streptococcus sanguinis-, Streptococcus parasanguinis-, and Streptococcus gordonii-PCR Primers Based on the Nucleotide Sequences of Species-specific DNA Probes Screened by Inverted Dot Blot Hybridization

The objective of this study was to develop PCR primers that are specific for Streptococcus sanguinis, Streptococcus parasanguinis, and Streptococcus gordonii. We designed the S. sanguinis-, S. parasanguinis-, and S. gordonii-specific primers, Ssa21-F3/Ssa21-R2, Spa17-F/Spa17-R, and Sgo41-F1/Sgo41-R1 respectively, based on the nucleotide sequences of the Ssa21, Spa17, and Sgo41 DNA probes that were screened using inverted dot blot hybridization (IDBH). The species-specificity of these primers was assessed against 43 strains of mitis group streptococci, including clinical strains of S. sanguinis, S. parasanguinis, and S. gordonii. The resulting PCR data revealed that species-specific amplicons had been obtained from all strains of the target species tested, and that none of these amplicons occurred in any other strains from other species. These results suggest that the Ssa21-F3/Ssa21-R2, Spa17-F/Spa17-R, and Sgo41-F1/Sgo41-R1 primers may be useful in detecting S. sanguinis, S. parasanguinis, and S. gordonii at the species level, respectively.

Discriminative PCR of Bordetella pertussis from closely related Bordetella species using 16S rDNA Gene / 감염과화학요법

BACKGROUND: Polymerase-chain reaction (PCR) detection is useful to diagnosis of pertussis at initial stage because the growth rate of Bordetella pertussis (B. pertussis) is relatively slow. Currently, the primer set for the insertion sequence IS481 (BP primer) is used widely for PCR detection of B. pertussis. However, the cross-reactivity of BP primer set with Bordetella holmesii (B. holmesii) was reported recently. Therefore, discrimination of B. pertussis and B. holmesii is needed in PCR step. For this reason, we developed new primer sets based on 16S rDNA sequence for diagnostic use and estimated the efficiency of these new primer sets. MATERIALS AND METHODS: The specific PCR primers were designed from the aligned sequence matrix of 16S rDNA genes of various Bordetella species. The specificity of designed primers were estimated using clinically important 4 Bordetella species, B. pertussis, B. holmesii, Bordetella parapertussis (B. parapertussis) and Bordetella bronchiseptica (B. bronchiseptica). The sensitivity to B. pertussis of designed primers was also estimated and compared with BP primer set. RESULTS: As the results, the developed new primer set successfully distinguished B. pertussis and other Bordetella species containing B. holmesii. In the sensitivity assay, the detectable limits of 16S-F2/16S-R1 primer set for B. pertussis were revealed as 5 pg of genomic DNA and 105 cells/mL of cell suspension. In addition to these, identical results between BP with primer and new primer were obtained in clinical samples. CONCLUSION: In this study, the specific primer set for B. pertussis was developed based on 16S rDNA sequence and this primer set did not show cross-reactivity to B. holmesii. In addition to these, the applicability of this primer set to the clinical specimens was also confirmed.

Discriminative PCR of Bordetella pertussis from closely related Bordetella species using 16S rDNA Gene / 감염과화학요법

BACKGROUND: Polymerase-chain reaction (PCR) detection is useful to diagnosis of pertussis at initial stage because the growth rate of Bordetella pertussis (B. pertussis) is relatively slow. Currently, the primer set for the insertion sequence IS481 (BP primer) is used widely for PCR detection of B. pertussis. However, the cross-reactivity of BP primer set with Bordetella holmesii (B. holmesii) was reported recently. Therefore, discrimination of B. pertussis and B. holmesii is needed in PCR step. For this reason, we developed new primer sets based on 16S rDNA sequence for diagnostic use and estimated the efficiency of these new primer sets. MATERIALS AND METHODS: The specific PCR primers were designed from the aligned sequence matrix of 16S rDNA genes of various Bordetella species. The specificity of designed primers were estimated using clinically important 4 Bordetella species, B. pertussis, B. holmesii, Bordetella parapertussis (B. parapertussis) and Bordetella bronchiseptica (B. bronchiseptica). The sensitivity to B. pertussis of designed primers was also estimated and compared with BP primer set. RESULTS: As the results, the developed new primer set successfully distinguished B. pertussis and other Bordetella species containing B. holmesii. In the sensitivity assay, the detectable limits of 16S-F2/16S-R1 primer set for B. pertussis were revealed as 5 pg of genomic DNA and 105 cells/mL of cell suspension. In addition to these, identical results between BP with primer and new primer were obtained in clinical samples. CONCLUSION: In this study, the specific primer set for B. pertussis was developed based on 16S rDNA sequence and this primer set did not show cross-reactivity to B. holmesii. In addition to these, the applicability of this primer set to the clinical specimens was also confirmed.

Development of Species-specific Primers for Rapid Detection of Phellinus linteus and P. baumii

Genus Phellinus taxonomically belongs to Aphyllophorales and some species of this genus have been used as a medicinal ingredients and Indian folk medicines. Especially, P. linteus and morphological-related species are well-known medicinal fungi that have various biological activities such as humoral and cell-mediated, anti-mutagenic, and anti-cancer activities. However, little is known about the rapid detection for complex Phellinus species. Therefore, this study was carried out to develop specific primers for the rapid detection of P. linteus and other related species. Designing the species-specific primers was done based on internal transcribed spacer sequence data. Each primer set detected specifically P. linteus (PL2/PL5R) and P. baumii (PB1/PB4R). These primer sets could be useful for the rapid detection of specific-species among unidentified Phellinus species. Moreover, restriction fragment length polymorphism analysis of the ITS region with HaeIII was also useful for clarifying the relationship between each 5 Phellinus species.