Biology Reference
In-Depth Information
Pathania, R., Navani, N. K., Gardner, A. M., Gardner, P. R., & Dikshit, K. L. (2002). Nitric
oxide scavenging and detoxification by the
Mycobacterium tuberculosis
haemoglobin, HbN
in
Escherichia coli
.
Molecular Microbiology
,
45
, 1303-1314.
Pathania, R., Navani, N. K., Rajamohan, G., & Dikshit, K. L. (2002).
Mycobacterium
tuberculosis
hemoglobin HbO associates with membranes and stimulates cellular respira-
tion of recombinant
Escherichia coli
.
The Journal of Biological Chemistry
,
277
, 15293-15302.
Pawaria, S., Lama, A., Raje, M., & Dikshit, K. L. (2008). Responses of
Mycobacterium
tuberculosis
hemoglobin promoters to in vitro and in vivo growth conditions.
Applied
and Environmental Microbiology
,
74
, 3512-3522.
Pawaria, S., Rajamohan, G., Gambhir, V., Lama, A., Varshney, G. C., & Dikshit, K. L.
(2007). Intracellular growth and survival of
Salmonella enterica
serovar Typhimurium
carrying truncated hemoglobins of
Mycobacterium tuberculosis
.
Microbial Pathogenesis
,
42
,
119-128.
Pesce, A., Couture, M., Dewilde, S., Guertin, M., Yamauchi, K., Ascenzi, P., et al. (2000).
A novel two-over-two
a
-helical sandwich fold is characteristic of the truncated hemo-
globin family.
The EMBO Journal
,
19
, 2424-2434.
Poole, R. K., & Hughes, M. N. (2000). New functions for the ancient globin family:
Bacterial responses to nitric oxide and nitrosative stress.
Molecular Microbiology
,
36
,
775-783.
Roberts, D. M., Liao, R. P., Wisedchaisri, G., Hol, W. G. J., & Sherman, D. R. (2004). Two
sensor kinases contribute to the hypoxic response of
Mycobacterium tuberculosis
.
The Journal
of Biological Chemistry
,
279
, 23082-23087.
Rustad, T. R., Sherrid, A. M., Minch, K. J., & Sherman, D. R. (2009). Hypoxia: A window
into
Mycobacterium tuberculosis
latency.
Cellular Microbiology
,
11
, 1151-1159.
Savard, P.-Y., Daigle, R., Morin, S., Sebilo, A., Meindre, F., Lag¨e, P., et al. (2011). Struc-
ture and dynamics of
Mycobacterium tuberculosis
truncated hemoglobin N: Insights from
NMR spectroscopy
and molecular
dynamics
simulations.
Biochemistry
,
50
,
11121-11130.
Stevanin, T. M., Ioannidis, N., Mills, C. E., Kim, S. O., Hughes, M. N., & Poole, R. K.
(2000). Flavohemoglobin Hmp affords inducible protection for
Escherichia coli
respira-
tion, catalyzed by cytochromes
bo'
or
bd
, from nitric oxide.
The Journal of Biological Chem-
istry
,
275
, 35868-35875.
Stevanin, T. M., Poole, R. K., Demoncheaux, E. A. G., & Read, R. C. (2002).
Flavohemoglobin Hmp protects
Salmonella enterica
serovar typhimurium from nitric
oxide-related killing by human macrophages.
Infection and Immunity
,
70
, 4399-4405.
Thorsteinsson, M. V., Bevan, D. R., Potts, M., Dou, Y., Eich, R. F., Hargrove, M. S., et al.
(1999). A cyanobacterial hemoglobin with unusual ligand binding kinetics and stability
properties.
Biochemistry
,
38
, 2117-2126.
Visca, P., Fabozzi, G., Petrucca, A., Ciaccio, C., Coletta, M., De Sanctis, G., et al. (2002).
The truncated hemoglobin from
Mycobacterium leprae
.
Biochemical and Biophysical Research
Communications
,
294
, 1064-1070.
Voskuil, M. I., Bartek, I., Visconti, K., & Schoolnik, G. K. (2011). The response of
Myco-
bacterium tuberculosis
to reactive oxygen and nitrogen species.
Frontiers in Microbiology
,
2
,
1-12.
Voskuil, M. I., Visconti, K. C., & Schoolnik, G. K. (2004).
Mycobacterium tuberculosis
gene
expression during adaptation to stationary phase and low-oxygen dormancy.
Tuberculosis
,
84
, 218-227.
Vuletich, D., & Lecomte, J. J. (2006). A phylogenetic and structural analysis of truncated
hemoglobins.
Journal of Molecular Evolution
,
62
, 196-210.
Wainwright, L. M., Elvers, K. T., Park, S. F., & Poole, R. K. (2005). A truncated
haemoglobin implicated in oxygen metabolism by the microaerophilic food-borne path-
ogen
Campylobacter jejuni
.
Microbiology
,
151
, 4079-4091.
Previous Page
Next Page
Advances in Microbial Physiology
Search WWH ::
Custom Search
Home
