| pubmed-article:8526414 | pubmed:abstractText | Progress in molecular biology has led to the development of new tools for bacteriological diagnosis. Sporadic genes coding for virulence factors can be detected with highly specific genetic probes applied to cultured bacteria. Such genetic probes can also be used to specifically identified cultured bacteria whose general taxonomic classification is known. Another advantage of molecular genetics is the possibility that the cell culture step may not be needed, bacteria being identified directly in the sample specimen. Such techniques are particularly interesting to identify bacteria which are difficult to culture (for example: Borrelia burgdorferi, Chlamydia trachomatis) or which grow slowly (mycobacteria). The bacterial DNA must be isolated and amplified with an enzyme reaction. This is a critical step in the method: several positive and negative controls are required. When performed under optimal conditions, amplification techniques are excellent methods which can offer results similar to culture methods in culturable bacteria. Finally, molecular biology can be used to identify previously cultured bacteria for which there is no taxonomic orientation. Here the ribosome 165 DNA must be amplified and sequenced. The sequence is then compared with a data bank allowing classification. One could image future techniques applied to certain pathology samples for the detection and identification of bacteria without need for a culture step. However, direct microscope examination and bacterial culture remain the basic methods for bacteriologic diagnosis, the advantages and disadvantages of molecular biology leading to its use a complementary method for improving the quality of the diagnosis. | lld:pubmed |
