The detection of microorganisms includes identification and subtyping generally. For the control of disease, rapid and automatic detection methods have to be developed. The molecular subtyping is the best evidence for epidemiology. It is also an important key point for the procedure of detection methods. Enterohaemorrhagic Escherichia coli O157:H7 is an important pathogen these days. Outbreaks of its infection have been reported all over the world, in Australia, Canada, Japan, the United States, and in various countries in Europe and South Africa. In the summer of 2001, the first clinical infection case by E. coli O157:H7 was identified in Taiwan. In this study, we describe the results of the isolation and identification of this strain and molecular typing for comparison with previously reported strains. Biochemical and molecular biological tests were used to confirm that this patient, who developed bloody diarrhea and kidney failure as a result of the infection, was indeed infected with E. coli O157:H7. None of the patients’ close contacts were affected. The two molecular subtyping methods we used are pulsed-field gel electrophoresis (PFGE) and amplified fragment length polymorphism (AFLP). The isolates from the USA, Canada, Japan, and Taiwan each showed a unique molecular fingerprinting pattern. The strains isolated from cattle in Taiwan showed closer relationships with each other, and their similarity was in the range of 75-85%. The first human clinical strain isolated in Taiwan in 2001 was similar to the strains from North America but not closely related to the strains isolated from cattle in Taiwan. The establishment of a database of our own and joining the global network database is an important task if we want to control such agricultural and food-borne pathogens, and reduce the number of victims and sufferings, as well as the economic losses due to the infection. Three combinations of primers and probes were designed to detect and identify E. coli O157 on the TaqMan® detection system which focus on the specific genes eae, rfbO157, and stxII. Reverse transcription (RT) multiplex TaqMan® PCR were carried out to detect viable target cells correctly. Furthermore, the acidic pretreatment and immunomagnetic separation (IMS) of food and stool samples also improved the specificity and accuracy of the RT multiplex TaqMan® PCR. The developed multiplex TaqMan® PCR was effective in differentiating E. coli O157, enterovirulent E. coli, and non-E. coli pathogens from 100 strains which were isolated from human clinical patients and the cattle in Taiwan. Viable and non-viable cells were also distinguished by this assay. The pretreatment protocol, which included IMS to concentrate and purify the E. coli O157, was developed and the sensitivity of the assay was improved to 100 CFU/mL in pure culture, food and stool samples. On the other hand, the RT multiplex TaqMan® PCR with these combinations primers and probes were used to quantify the genes expression of stxII and eaeA of E. coli O157:H7 TWC01 which was treated with 7 different conditions. As the results, the chemical reagents promote the gene expression of stxII and eaeA in E. coli O157:H7 TWC01. On the treatment with storage temperature, the treated strain were not improved the gene expression of stxII and eaeA. It shortens the processing time and increases the specificity of the pathogens detection. This is critical for improving the safety and sanitation of our food supply.