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    Insertion- and deletion-associated genetic diversity of Mycobacterium tuberculosis phospholipase C-encoding genes among 106 clinical isolates from Turkey
    (Amer Soc Microbiology, 2005) Talarico, S; Durmaz, R; Yang, ZH
    Bacterial phospholipase C has been reported to play a role in the pathogenesis of many bacteria. In order to gain a better understanding of the potential role of Mycobacterium tuberculosis phospholipase C in the pathogenesis of human tuberculosis, we investigated the genetic diversity of the four M. tuberculosis phospholipase Gencoding genes (plcA, plcB, plcC, and plcD) resulting from the IS6110 insertion and associated deletion, among 106 clinical isolates obtained from Turkey, by using PCR, Southern hybridization, and DNA sequencing. Two sequenced M. tuberculosis strains, H37Rv and CDC1551, were used as the references in the comparison. Sixty-six (62.3%) of the 106 isolates had an intact plcD gene, and 40 (37.7%) showed an interruption of the gene. Of the latter 40 isolates, 19 (47.5%) had an IS6110 insertion with no associated deletion in the plcD gene, 2 (5%) had an IS6110 insertion and an associated deletion within the plcD gene, 15 (37.5%) had an IS6110 insertion in the plcD gene that was associated with a partial deletion of the plcD gene and its right forward adjacent region, and 4 (10%) had a complete deletion of the plcD gene. The proportions of the isolates with an interrupted plcA, plcB, or plcC gene were 3.8, 1.9, and 3.8%, respectively. The data indicate that there is a much higher frequency of IS6110 insertion and deletion in the plcD gene than in the plcA, plcB, and plcC genes of M. tuberculosis.
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    Molecular characterization of isoniazid and rifampin resistance of Mycobacterium tuberculosis clinical isolates from Malatya, Turkey
    (Mary Ann Liebert, Inc, 2005) Aktas, E; Durmaz, R; Yang, D; Yang, ZH
    Molecular characterization of drug resistance of Mycobacterium tuberculosis strains of different origins can generate information useful for developing molecular methods that are widely applicable for rapid drug resistance detection. Using DNA sequencing and allele-specific polymerase chain reaction (AS-PCR), we investigated genetic mutations associated with isoniazid (INH) and rifampin (RIF) resistance among 29 drug-resistant clinical isolates of M. tuberculosis collected from Malatya, Turkey, including 19 multi-drug-resistant (MDR) isolates. Point mutations were detected at codons 531, 516, 526, and 513 of the RNA polymerase beta-subunit gene (rpoB) in 10 (47.6%), five (23.8%), three (14.3%), and three (14.3%) of the 21 RIF-resistant isolates, respectively. Of the five isolates having mutations in codon 516, three also had mutations at codon 527; one had a concurrent mutation at codon 572. Mutations at codon 315 of the catalase-peroxidase-encoding gene (katG) were found in 17 (63.0%) of the 27 INH-resistant isolates. Interestingly, the katG codon 315 mutation was observed at a much higher frequency in MDR isolates than in INH-mono-resistant isolates (similar to 79% vs. 25%). This study provided the first molecular characterization of INH and RIF resistance of M. tuberculosis clinical isolates from Eastern Turkey, and extended our knowledge of molecular basis of M. tuberculosis drug resistance.
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    Simultaneous detection of isoniazid, rifampin, and ethambutol resistance of Mycobacterium tuberculosis by a single multiplex allele-specific polymerase chain reaction (PCR) assay
    (Elsevier Science Inc, 2005) Yang, ZH; Durmaz, R; Yang, D; Gunal, S; Zhang, LX; Foxman, B; Sanic, A
    Prompt detection of drug resistance of Mycobacterium tuberculosis is essential for effective control of tuberculosis (TB). We developed a multiplex allele-specific polymerase chain reaction (MAS-PCR) that detects the most commonly observed isoniazid (M), rifampin (RIF), and ethambutol resistance-associated mutations in a single assay. The usefulness of the newly developed method was evaluated with 174 clinical isolates of M. tuberculosis obtained from Turkey. Distinct PCR banding patterns were observed for different mutation profiles and the correlation between MAS-PCR results and DNA sequencing findings was 99.4%. With culture-based phenotypic drug susceptibility testing as a reference standard, the sensitivity and specificity of the newly developed MAS-PCR assay for drug resistance-related genetic mutation detection were determined to be 81.1% and 97.5% for INH, 93.0% and 98.9% for RIF, and 54.5% and 68.0% for ethambutol. MAS-PCR provides a rapid, potentially more cost-effective, method of detecting multidrug-resistant TB. (c) 2005 Elsevier Inc. All rights reserved.