Rapid detection of drug resistance in Mycobacterium tuberculosis is essential for efficient treatment and control of this pathogen. The amplification refractory mutation system (ARMS) was used to detect mutations in the rifampin resistance-determining region of the rpoB gene. A total of 39 rifampin-resistant M. tuberculosis isolates in Shanghai were analyzed by this assay, resulting in 92.3% sensitivity (36 of 39) and 87.2% concordance (34 of 39) relative to DNA sequencing, by which 41 mutations of 11 different types, including 9 point mutations and 2 deletions, were identified in the rpoB gene. The most frequent mutations were those associated with codon 531 (21 of 39 [53.8%]) and codon 526 (9 of 39 [23.1%]). The results suggest that the ARMS assay is rapid and simple to implement and could be performed for detection of rifampin resistance in M. tuberculosis to complement conventional culture-based methods.Tuberculosis (TB), though curable, still remains a major public health concern worldwide. According to the report of the World Health Organization, about one-third of the world's population (1.86 billion people) are infected with Mycobacterium tuberculosis and are at risk of having the infection develop into clinical TB. Approximately 8 million new cases occur each year, resulting in 3 million deaths around the world (15,19). It has been estimated that among 6 million active TB patients at present, the disease causes 250,000 deaths every year in China (28). Furthermore, control of TB has been further complicated by the emergence of multidrug-resistant (MDR) M. tuberculosis strains and the human immunodeficiency virus epidemic (4, 9).Rifampin, introduced in 1971, has proven to be one of the most potent antituberculosis agents (2). Rifampin is an effective bactericidal against M. tuberculosis, interacting with DNAdependent RNA polymerase to inhibit transcription and elongation of RNA (11,12), and the use of this drug has greatly shortened the duration of chemotherapy. The molecular mechanism of rifampin resistance in M. tuberculosis was first characterized in 1993 (21). Ninety-six percent of rifampin-resistant (Rif r ) M. tuberculosis strains possess genetic alterations within an 81-bp rifampin resistance-determining region (RRDR) in the rpoB gene (16, 18), corresponding to codons 507 to533 (Escherichia coli numbering system). In addition, rifampin resistance can be assumed to be a surrogate marker for MDR TB, since more than 90% of Rif r isolates are also isoniazid resistant (6).Early diagnosis of TB and rapid detection of rifampin resistance are essential for efficient treatment and control of M. tuberculosis. However, culture-based methods for detection of M. tuberculosis infection and testing of drug susceptibility usually take more than 1 month. Although several different genotypic methods, such as PCR single-strand conformational length polymorphism (21, 22), dideoxy fingerprinting (7), heteroduplex analysis (26), and DNA sequencing (13), have been used for analysis of rpoB gene muations associated with r...
