A pair of oligonucleotide primers were designed from the nucleotide sequence of the gene encoding the small subunit ribosomal RNA (SrRNA) of the oral protozoan parasite Entamoeba gingivalis. The primers amplified a 1.4-kb DNA fragment by polymerase chain reaction and were specific for Entamoeba gingivalis but not for other protozoa, oral protists and bacteria, or human leukocytes. With this method, the DNA from as few as 30 cells of Entamoeba gingivalis could be detected. These results suggest that this approach is applicable to the detection and identification of Entamoeba gingivalis in the human oral cavity.
A polymerase chain reaction (PCR) protocol was developed for specific detection of Trichomonas tenax by using a pair of primers designed for its 18S rRNA gene. The detection was specific for T. tenax, since no amplification was detected with DNAs from Trichomonas vaginalis, which belongs to the same genus as T. tenax, in addition to various species of oral protists, fungi and bacteria, and human leukocytes. This method had a detection limit of 100 fg for T. tenax genomic DNA and could detect T. tenax cells in dental plaque at a concentration of as low as 5 cells per PCR mixture. Direct detection from clinical dental plaque samples was also possible ; therefore, the present PCR procedure could provide a simple and rapid detection method of T. tenax in dental plaque.
The small subunit ribosomal RNA (SrRNA) gene of Entamoeba gingivalis was amplified by PCR and the product of 1.9-kbp sequence was cloned into a plasmid vector pUC18. Four clones were isolated and sequenced. The insert DNAs were 1918-to 1921-bp long and A+ T rich (65.5 %). The four SrRNA sequences of E. gingivalis were found to be aligned with those of nine related protozoans while searching for E. gingivalis-specific sequences. A sequence of 28 oligonucleotides was chosen, chemically synthesized, and labeled with digoxigenin for use as a DNA probe. The probe thus constructed was shown to hybridize only with either the SrRNA-coding DNAs or the cells of the two E. gingivalis strains and not with those of other protozoans or oral fungi tested. A representative SrRNA-sequence was analyzed and a phylogenetic tree was constructed by the neighbor-joining (NJ) method. Among the protists examined, E. gingivalis was placed next to Entamoeba histolytica as expected from the traditional taxonomy.
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