Figure 2

High Prevalence of atpE Mutations in Bedaquiline-Resistant Mycobacterium tuberculosis Isolates, Russia

Danila Zimenkov

, Anastasia Ushtanit, Elizaveta Gordeeva, Elena Guselnikova, Yakov Schwartz, and Natalia Stavitskaya

Author affiliation: Center for Precision Genome Editing and Genetic Technologies for Biomedicine, Engelhardt Institute of Molecular Biology, Russian Academy of Sciences, Moscow, Russia (D. Zimenkov, A. Ushtanit); Federal State Budgetary Institution Novosibirsk TB Research Institute, Ministry of Health, Novosibirsk, Russia (E. Gordeeva, E. Guselnikova, Y. Schwartz, N. Stavitskaya)

Main Article

Mapping of the candidate substitution Val165Ile in AtpB on the atomic model of Mycobacterium tuberculosis ATP synthase (PDB: 8J0S) in study of high prevalence of atpE mutations in bedaquiline-resistant M. tuberculosis isolates, Russia. Identical c subunits of the rotor (encoded by the atpE gene) are shown with distinct colors.

Figure 2. Mapping of the candidate substitution Val165Ile in AtpB on the atomic model of Mycobacterium tuberculosis ATP synthase (PDB: 8J0S) in study of high prevalence of atpE mutations in bedaquiline-resistant M. tuberculosis isolates, Russia. Identical c subunits of the rotor (encoded by the atpE gene) are shown with distinct colors.

Main Article

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