J Dziadek1, A Sajduda, T M Boruń. 1. Centre for Microbiology and Virology, Polish Academy of Sciences, Lódź. jdziadek@wirus.cmiwpan.lodz.pl
Abstract
OBJECTIVE: To determine the specificity of different insertion sequence-targeted polymerase chain reaction (PCR) tests for Mycobacterium tuberculosis complex. DESIGN: One M. bovis BCG strain, two M. tuberculosis strains and ten species of mycobacteria other than tuberculosis (MOTT) were tested by three PCR assays based on the repetitive elements IS6110, IS1081 and IS990 under variable amplification conditions (different temperatures of primer annealing and numbers of reaction cycles). RESULTS: DNA amplifications based on the three insertion sequences yielded fragments of expected sizes only in DNA from M. tuberculosis complex strains when the tests were conducted at high stringency (65 degrees C). At the annealing temperature of 60 degrees C the PCR assay with IS6110-specific primers yielded a 245 bp fragment also in nine MOTT strains tested. This could result from previously reported homology between non-tuberculous mycobacteria and a central region of IS6110. Amplification assays based on IS1081 and IS990 gave false-positive results in some MOTT isolates only under very low stringency (55 degrees C), which could be due to non-specific priming of the target DNA at that temperature. CONCLUSION: Repetitive elements IS1081 and IS990 may represent a more reliable alternative to the more widely used IS6110 PCR target for tuberculosis diagnosis.
OBJECTIVE: To determine the specificity of different insertion sequence-targeted polymerase chain reaction (PCR) tests for Mycobacterium tuberculosis complex. DESIGN: One M. bovis BCG strain, two M. tuberculosis strains and ten species of mycobacteria other than tuberculosis (MOTT) were tested by three PCR assays based on the repetitive elements IS6110, IS1081 and IS990 under variable amplification conditions (different temperatures of primer annealing and numbers of reaction cycles). RESULTS: DNA amplifications based on the three insertion sequences yielded fragments of expected sizes only in DNA from M. tuberculosis complex strains when the tests were conducted at high stringency (65 degrees C). At the annealing temperature of 60 degrees C the PCR assay with IS6110-specific primers yielded a 245 bp fragment also in nine MOTT strains tested. This could result from previously reported homology between non-tuberculous mycobacteria and a central region of IS6110. Amplification assays based on IS1081 and IS990 gave false-positive results in some MOTT isolates only under very low stringency (55 degrees C), which could be due to non-specific priming of the target DNA at that temperature. CONCLUSION: Repetitive elements IS1081 and IS990 may represent a more reliable alternative to the more widely used IS6110 PCR target for tuberculosis diagnosis.
Authors: Fiona Mathews; David W Macdonald; G Michael Taylor; Merryl Gelling; Rachel A Norman; Paul E Honess; Rebecca Foster; Charlotte M Gower; Susan Varley; Audrey Harris; Simonette Palmer; Glyn Hewinson; Joanne P Webster Journal: Proc Biol Sci Date: 2006-02-07 Impact factor: 5.349
Authors: Diana I Gomez; Caroline S Mullin; Francisco Mora-Guzmán; J Gonzalo Crespo-Solis; Susan P Fisher-Hoch; Joseph B McCormick; Blanca I Restrepo Journal: Tuberculosis (Edinb) Date: 2011-11-15 Impact factor: 2.973