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  1. A multilayered repair system protects the mycobacterial chromosome from endogenous and antibiotic-induced oxidative damage
  2. The Microbiome and Tuberculosis: Early Evidence for Cross Talk
  3. Control of biotin biosynthesis in mycobacteria by a pyruvate carboxylase dependent metabolic signal
  4. RecF and RecR Play Critical Roles in the Homologous Recombination and Single-Strand Annealing Pathways of Mycobacteria
  5. DNA Ligase C1 Mediates the LigD-Independent Nonhomologous End-Joining Pathway of Mycobacterium smegmatis
  6. Deficiency of Double-Strand DNA Break Repair Does Not Impair Mycobacterium tuberculosis Virulence in Multiple Animal Models of Infection
  7. The Rip1 Protease of Mycobacterium tuberculosis Controls the SigD Regulon
  8. Cording, Cord Factors, and Trehalose Dimycolate
  9. Function of site-2 proteases in bacteria and bacterial pathogens
  10. Essential yet limited role for CCR2 + inflammatory monocytes during Mycobacterium tuberculosis -specific T cell priming
  11. Site-2 protease substrate specificity and coupling in trans by a PDZ-substrate adapter protein
  12. A dual role for mycobacterial RecO in RecA-dependent homologous recombination and RecA-independent single-strand annealing
  13. Characterization of Mycobacterium smegmatis PolD2 and PolD1 as RNA/DNA Polymerases Homologous to the POL Domain of Bacterial DNA Ligase D
  14. Interaction of CarD with RNA Polymerase Mediates Mycobacterium tuberculosis Viability, Rifampin Resistance, and Pathogenesis
  15. Mycobacterium tuberculosis Lacking All Mycolic Acid Cyclopropanation Is Viable but Highly Attenuated and Hyperinflammatory in Mice
  16. A Gamma Interferon Independent Mechanism of CD4 T Cell Mediated Control of M. tuberculosis Infection in vivo
  17. Is Mycobacterium tuberculosis stressed out? A critical assessment of the genetic evidence
  18. Mycobacteria exploit three genetically distinct DNA double‐strand break repair pathways
  19. M. tuberculosis intramembrane protease Rip1 controls transcription through three anti‐sigma factor substrates
  20. Redundant Function of cmaA2 and mmaA2 in Mycobacterium tuberculosis cis Cyclopropanation of Oxygenated Mycolates
  21. CarD Is an Essential Regulator of rRNA Transcription Required for Mycobacterium tuberculosis Persistence
  22. CarD Is an Essential Regulator of rRNA Transcription Required for Mycobacterium tuberculosis Persistence
  23. AdnAB: a new DSB-resecting motor-nuclease from mycobacteria
  24. Mycolic Acid Cyclopropanation is Essential for Viability, Drug Resistance, and Cell Wall Integrity of Mycobacterium tuberculosis
  25. Mutational Analysis of Mycobacterium UvrD1 Identifies Functional Groups Required for ATP Hydrolysis, DNA Unwinding, and Chemomechanical Coupling
  26. Delayed protection by ESAT-6–specific effector CD4 + T cells after airborne M. tuberculosis infection
  27. Domain Requirements for DNA Unwinding by Mycobacterial UvrD2, an Essential DNA Helicase
  28. The pathways and outcomes of mycobacterial NHEJ depend on the structure of the broken DNA ends
  29. Bacterial DNA repair by non-homologous end joining
  30. Mycobacterial Nonhomologous End Joining Mediates Mutagenic Repair of Chromosomal Double-Strand DNA Breaks
  31. Mycobacterial UvrD1 Is a Ku-dependent DNA Helicase That Plays a Role in Multiple DNA Repair Events, Including Double-strand Break Repair
  32. Crystal Structure and Nonhomologous End-joining Function of the Ligase Component of Mycobacterium DNA Ligase D
  33. Atomic structure and nonhomologous end-joining function of the polymerase component of bacterial DNA ligase D
  34. Regulation of Mycobacterium tuberculosis cell envelope composition and virulence by intramembrane proteolysis
  35. Mechanism of nonhomologous end-joining in mycobacteria: a low-fidelity repair system driven by Ku, ligase D and ligase C
  36. Biochemical and Genetic Analysis of the Four DNA Ligases of Mycobacteria
  37. The mmaA2 Gene of Mycobacterium tuberculosis Encodes the Distal Cyclopropane Synthase of the alpha -Mycolic Acid
  38. Crystal Structures of Mycolic Acid Cyclopropane Synthases fromMycobacterium tuberculosis
  39. Microbial Pathogenesis of Mycobacterium tuberculosis: Dawn of a Discipline
  40. The Mycobacterium tuberculosis cmaA2 Gene Encodes a Mycolic Acid trans-Cyclopropane Synthetase
  41. A Novel Mycolic Acid Cyclopropane Synthetase Is Required for Cording, Persistence, and Virulence of Mycobacterium tuberculosis