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Objective: To explore the association between the variant mutations within embB and ubiA , and the degree of ethambutol (EMB) resistance of Mycobacterium tuberculosis ( M. tuberculosis ) isolates. Methods: A total of 146 M. tuberculosis isolates were used to determine the minimum inhibitory concentrations (MICs) of EMB with a 96-well microplate-based assay. The mutations within embB and ubiA among these isolates were identified with DNA sequencing. Moreover, a multivariate regression model and a computer model were established to assess the effects of mutations on EMB resistance. Results: Our data showed that overall 100 isolates exhibited 28 mutated patterns within the sequenced embB and ubiA . Statistical analysis indicated that embB mutations Met306Val, Met306Ile, Gly406Ala, and Gln497Arg, were strongly associated with EMB resistance. Of these mutations, Met306Val and Gln497Arg were significantly associated with high-level EMB resistance. Almost all multiple mutations occurred in high-level EMB-resistant isolates. Although the mutation within ubiA accompanied with embB mutation presented exclusively in EMB-resistant isolates, four single ubiA mutations (Ala39Glu, Ser173Ala, Trp175Cys, and Val283Leu) leading to protein instability were observed in EMB-susceptible isolates. Conclusion: This study highlighted the complexity of EMB resistance. Some individual mutations and multiple mutations within embB and ubiA contributed to the different levels of EMB resistance. Keywords: ethambutol, multidrug-resistant tuberculosis, embB , ubiA , mutations, minimum inhibitory concentration
Nan et al. (Mon,) studied this question.