Detection of enterotoxigenic Escherichia coli after polymerase chain reaction amplification with a thermostable DNA polymerase

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Abstract
The direct identification of enterotoxigenic Escherichia coli from clinical specimens was examined by using the polymerase chain reaction (PCR) for amplifying the heat-labile toxin (LT) gene. Two synthetic primers, each of which was 20 bases in length, were used with the thermostable DNA polymerase from Thermus aquaticus to amplify the LT gene. The amplified PCR products were detected by either gel electrophoresis or hybridization to a 24-base synthetic oligonucleotide probe conjugated to alkaline phosphatase. The PCR method detected LT-positive bacteria but did not react with E. coli producing the heat-stable toxin, enteroinvasive E. coli, Salmonella typhi, Salmonella typhimurium, or Shigella dysenteriae. By the PCR method, a single bacterium could be detected following 30 cycles of amplification. The T. aquaticus DNA polymerase was inhibited by more than 103 organisms in the amplification reaction mixture. A group of 40 clinical specimens consisting of 16 LT bioassay-positive and 24 LT bioassay-negative stool specimens were tested by PCR for the presence of toxigenic E. coli. The total DNA from 100 .mu.l of stool specimen was extracted and partially purified with a commercially available ion-exchange column. All 16 of the bioassay-positive stool specimens were positive by PCR. In addition, one stool specimen which was bioassay negative for LT but positive for LT in a previous hybridization assay with a different LT probe was also positive by PCR. This may indicate that the LT gene is present but either is not expressed or is expressed below detectable levels. Amplification of specific DNA sequences by PCR provides a highly sensitive and specific tool for the detection of pathogenic microorganisms directly from clinical specimens without the need for prior isolation. This technique may find wide application in the detection of other organisms in addition to enterotoxigenic E. coli.