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Droghetti, E., Nicoletti, F. P., Bonamore, A., Boechi, L., Arroyo Ma˜ez, P., Estrin, D. A.,
et al. (2010). Heme pocket structural properties of a bacterial truncated hemoglobin from
Thermobifida fusca . Biochemistry , 49 , 10394-10402.
Dye, C., Scheele, S., Dolin, P., Pathania, V., & Raviglione, R. C. (1999). Global burden of
tuberculosis—Estimated incidence, prevalence, and mortality by country. JAMA: The
Journal of the American Medical Association , 282 , 677-686.
Ehrt, S., & Schnappinger, D. (2009). Mycobacterial survival strategies in the phagosome:
Defence against host stresses. Cellular Microbiology , 11 , 1170-1178.
Fabozzi, G., Ascenzi, P., Renzi, S. D., &Visca, P. (2006). Truncated hemoglobin GlbO from
Mycobacterium leprae alleviates nitric oxide toxicity. Microbial Pathogenesis , 40 , 211-220.
Frey, A. D., & Kallio, P. T. (2003). Bacterial hemoglobins and flavohemoglobins: Versatile
proteins and their impact on microbiology and biotechnology. FEMS Microbiology
Reviews , 27 , 525-545.
Giordano, D., Parrilli, E., Detta¨, A., Russo, R., Barbiero, G., Marino, G., et al. (2007). The
truncated hemoglobins in the Antarctic psychrophilic bacterium Pseudoalteromonas
haloplanktis TAC125. Gene , 398 , 69-77.
Grange, J. M. (1996). The biology of the genus Mycobacterium. Journal of Applied Microbi-
ology , 81 , 1S-9S.
Guallar, V., Lu, C., Borrelli, K., Egawa, T., & Yeh, S.-R. (2009). Ligand migration in the
truncated hemoglobin-II from Mycobacterium tuberculosis : The role of G8 tryptophan. The
Journal of Biological Chemistry , 284 , 3106-3116.
Gupta, S., Pawaria, S., Lu, C., Hade, M. D., Singh, C., Yeh, S.-R., et al. (2012). An uncon-
ventional hexacoordinated flavohemoglobin from Mycobacterium tuberculosis . The Journal
of Biological Chemistry , 287 , 16435-16446.
Gupta, S., Pawaria, S., Lu, C., Yeh, S.-R., & Dikshit, K. L. (2011). Novel flavohemoglobins
of mycobacteria. IUBMB Life , 63 , 337-345.
Hunte, C. (2005). Specific protein-lipid interactions in membrane proteins. Biochemical
Society Transactions , 33 , 938-942.
Jasaitis, A., Ouellet, H., Lambry, J. C., Martin, J. L., Friedman, J. M., Guertin, M., et al.
(2012). Ultrafast heme-ligand recombination in truncated hemoglobin HbO from Myco-
bacterium tuberculosis : A ligand cage. Chemical Physics , 396 , 10-16.
Joseph, S. V., Madhavilatha, G. K., Kumar, R. A., & Mundayoor, S. (2012). Comparative
analysis of mycobacterial truncated hemoglobin promoters and the groEL2 promoter in
free-living and intracellular mycobacteria. Applied and Environmental Microbiology , 78 ,
6499-6506.
Kendall, S. L., Movahedzadeh, F., Rison, S. C. G., Wernisch, L., Parish, T., Duncan, K.,
et al. (2004). The Mycobacterium tuberculosis dosRS two-component system is induced
by multiple stresses. Tuberculosis , 84 , 247-255.
Lama, A., Pawaria, S., Bidon-Chanal, A., Anand, A., Gelpi, J. L., Arya, S., et al. (2009). Role
of Pre-A motif in nitric oxide scavenging by truncated hemoglobin, HbN, of Mycobac-
terium tuberculosis . The Journal of Biological Chemistry , 284 , 14457-14468.
Lama, A., Pawaria, S., & Dikshit, K. L. (2006). Oxygen binding and NO scavenging prop-
erties of truncated hemoglobin, HbN, of Mycobacterium smegmatis . FEBS Letters , 580 ,
4031-4041.
Liu, C., He, Y., & Chang, Z. (2004). Truncated hemoglobin O of Mycobacterium tuberculosis :
The oligomeric state change and the interaction with membrane components. Biochem-
ical and Biophysical Research Communications , 316 , 1163-1172.
Liu, P. T., & Modlin, R. L. (2008). Human macrophage host defense against Mycobacterium
tuberculosis . Current Opinion in Immunology , 20 , 371-376.
Milani, M., Pesce, A., Ouellet, Y., Ascenzi, P., Guertin, M., & Bolognesi, M. (2001). Myco-
bacterium tuberculosis hemoglobin N displays a protein tunnel suited for O 2 diffusion to the
heme. The EMBO Journal , 20 , 3902-3909.
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