Biology Reference
In-Depth Information
Mishra, S., & Meuwly, M. (2010). Atomistic simulation of NO dioxygenation in group
I truncated hemoglobin.
Journal of the American Chemical Society
,
132
, 2968-2982.
Mukai, M., Savard, P. Y., Ouellet, H., Guertin, M., & Yeh, S. R. (2002). Unique ligand-
protein interactions in a new truncated hemoglobin from
Mycobacterium tuberculosis
.
Biochemistry
,
41
, 3897-3905.
Nakajima, S.,
´
lvarez-Salgado, E., Kikuchi, T., & Arredondo-Peter, R. (2005). Prediction
of folding pathway and kinetics among plant hemoglobins using an average distance map
method.
Proteins: Structure, Function, and Bioinformatics
,
61
, 500-506.
Nardini, M., Pesce, A., Labarre, M., Richard, C., Bolli, A., Ascenzi, P., et al. (2006). Struc-
tural determinants in the group III truncated hemoglobin from
Campylobacter jejuni
.
The
Journal of Biological Chemistry
,
281
, 37803-37812.
Nardini, M., Pesce, A., Milani, M., & Bolognesi, M. (2007). Protein fold and structure in the
truncated (2/2) globin family.
Gene
,
398
, 2-11.
Nathan, C., & Shiloh, M. U. (2000). Reactive oxygen and nitrogen intermediates in the rela-
tionship between mammalian hosts and microbial pathogens.
Proceedings of the National
Academy of Sciences of the United States of America
,
97
, 8841-8848.
Nicoletti, F. P., Comandini, A., Bonamore, A., Boechi, L., Boubeta, F. M., Feis, A., et al.
(2010). Sulfide binding properties of
truncated hemoglobins.
Biochemistry
,
49
,
2269-2278.
Nicoletti, F. P., Droghetti, E., Boechi, L., Bonamore, A., Sciamanna, N., Estrin, D. A., et al.
(2011). Fluoride as a probe for H-bonding interactions in the active site of heme proteins:
The case of
Thermobifida fusca
hemoglobin.
Journal of the American Chemical Society
,
133
,
20970-20980.
Nothnagel, H. J., Love, N., & Lecomte, J. T. (2009). The role of the heme distal ligand in the
post-translational modification of
Synechocystis
hemoglobin.
Journal of Inorganic Biochem-
istry
,
103
, 107-116.
Nothnagel, H. J., Preimesberger, M. R., Pond, M. P., Winer, B. Y., Adney, E. M., &
Lecomte, J. T. (2011). Chemical reactivity of
Synechococcus
sp. PCC 7002 and
Syn-
echocystis
sp. PCC 6803 hemoglobins: Covalent heme attachment and bishistidine coor-
dination.
Journal of Biological Inorganic Chemistry
,
16
, 539-552.
Nothnagel, H. J., Winer, B. Y., Vuletich, D. A., Pond, M. P., & Lecomte, J. T. (2011).
Structural properties of 2/2 hemoglobins: The group III protein from
Helicobacter
hepaticus
.
IUBMB Life
,
63
, 197-205.
Ohno, H., Zhu, G., Mohan, V. P., Chu, D., Kohno, S., Jacobs, W. R., Jr., et al. (2003). The
effects of reactive nitrogen intermediates on gene expression in
Mycobacterium tuberculosis
.
Cellular Microbiology
,
5
, 637-648.
Oliveira, A., Singh, S., Bidon-Chanal, A., Forti, F., Mart`, M. A., Boechi, L., et al. (2012).
Role of PheE15 gate in ligand entry and nitric oxide detoxification function of
Mycobac-
terium tuberculosis
truncated hemoglobin N.
PLoS One
,
7
, e49291.
Ouellet, Y. H., Daigle, R., Lag¨e, P., Dantsker, D., Milani, M., Bolognesi, M., et al. (2008).
Ligand binding to truncated hemoglobin N from
Mycobacterium tuberculosis
is strongly
modulated by the interplay between the distal heme pocket residues and internal water.
The Journal of Biological Chemistry
,
283
, 27270-27278.
Ouellet, H., Juszczak, L., Dantsker, D., Samuni, U., Ouellet, Y. H., Savard, P. Y., et al.
(2003). Reactions of
Mycobacterium tuberculosis
truncated hemoglobin O with ligands
reveal a novel ligand-inclusive hydrogen bond network.
Biochemistry
,
42
, 5764-5774.
Ouellet, Y., Milani, M., Couture, M., Bolognesi, M., & Guertin, M. (2006). Ligand inter-
actions in the distal heme pocket of
Mycobacterium tuberculosis
truncated hemoglobin N:
Roles of TyrB10 and GlnE11 residues.
Biochemistry
,
45
, 8770-8781.
Ouellet, H., Milani, M., Labarre, M., Bolognesi, M., Couture, M., & Guertin, M. (2007).
The roles of Tyr(CD1) and Trp(G8) in
Mycobacterium tuberculosis
truncated hemoglobin
Previous Page
Next Page
Advances in Microbial Physiology
Search WWH ::
Custom Search
Home
