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.
Paul, J., Jeffrey, W. H., & DeFlaun, M. (1985). Particulate DNA in sub-tropical oceanic &
estuarine planktonic environments.
Marine Biology
,
90
, 95-101.
Peck, L. S. (2011). Organisms and responses to environmental change.
Marine Genomics
,
4
,
237-243.
Peck, L. S., Convey, P., &Barnes, D. K. A. (2006). Environmental constraints on life histories
inAntarctic ecosystems: Tempos, timings and predictability.
Biological Review
,
81
, 75-109.
Pegg, D. E. (2007). Principles of cryopreservation.
Methods in Molecular Biology
,
368
, 39-57.
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
hemoglobin family.
The EMBO Journal
,
19
, 2424-2434.
Pesce, A., Dewilde, S., Nardini, M., Moens, L., Ascenzi, P., Hankeln, T., et al. (2003).
Human brain neuroglobin structure reveals a distinct mode of controlling oxygen affin-
ity.
Structure
,
11
, 1087-1095.
Pesce, A., Milani, M., Nardini, M., & Bolognesi, M. (2008). Mapping heme-ligand tunnels
in group I truncated (2/2) hemoglobins.
Methods in Enzymology
,
436
, 303-315.
Piette, F., D'Amico, S., Mazzucchelli, G., Danchin, A., Leprince, P., & Feller, G. (2011).
Life in the cold: A proteomic study of cold-repressed proteins in the Antarctic bacterium
Pseudoalteromonas haloplanktis
TAC125.
Applied and Environmental Microbiology
,
77
,
3881-3883.
Piette, F., D'Amico, S., Struvay, C., Mazzucchelli, G., Renaut, J., Tutino, M. L., et al. (2010).
Proteomics of life at low temperatures: Trigger factor is the primary chaperone in the Ant-
arcticbacterium
Pseudoalteromonas haloplanktis
TAC125.
MolecularMicrobiology
,
76
, 120-132.
Polyak, L., Alley, R. B., Andrews, J. T., Brigham-Grette, J., Cronin, T. M., Darby, D. A.,
et al. (2010). History of sea ice in the Arctic.
Quaternary Science Reviews
,
29
, 1679-1715.
Poole, R. K. (2005). Nitric oxide and nitrosative stress tolerance in bacteria.
Biochemical
Society Transactions
,
33
, 176-180.
Poole, R. K. (2008). Microbial haemoglobins: Proteins at the crossroads of oxygen and nitric
oxide metabolism.
Methods in Enzymology
,
9
, 241-257.
Poole, R. K., Anjum, M. F., Membrillo-Hern´ndez, J., Kim, S. O., Hughes, M. N., &
Stewart, V. (1996). Nitric oxide, nitrite, and Fnr regulation of
hmp
(flavohemoglobin)
gene expression in
Escherichia coli
K-12.
Journal of Bacteriology
,
178
, 5487-5492.
Poole, R. K., & Hughes, M. N. (2000). New functions for the ancient globin family: Bac-
terial responses to nitric oxide and nitrosative stress.
Molecular Microbiology
,
36
, 775-783.
Poole, R. K., Rogers, N. J., D'mello, R. A. M., Hughes, M. N., & Orii, Y. (1997).
Escherichia coli
flavohaemoglobin (Hmp) reduces cytochrome
c
and Fe(III)-hydroxamate
K by electron transfer from NADH via FAD: Sensitivity of oxidoreductase activity to
haem-bound dioxygen.
Microbiology
,
143
, 1557-1565.
P¨ rtner, H. O., Peck, L. S., & Somero, G. N. (2007). Thermal limits and adaptation: An
integrative view (Antarctic Ecology: From Genes to Ecosystems).
Philosophical Transac-
tions of the Royal Society B
,
362
, 2233-2258.
Qiu, Y., Kathariou, S., & Lubman, D. M. (2006). Proteomic analysis of cold adaptation in a
Siberian permafrost bacterium
Exiguobacterium sibiricum
255-15 by two-dimensional liq-
uid separation coupled with mass spectrometry.
Proteomics
,
6
, 5221-5233.
Rabus, R., Ruepp, A., Frickey, T., Rattei, T., Fartmann, B., Stark, M., et al. (2004). The
genome of
Desulfotalea psychrophila
, a sulfate-reducing bacterium from permanently cold
Arctic sediments.
Environmental Microbiology
,
6
, 887-902.
Ray, M. K., Kumar, G. S., Janiyani, K., Kannan, K., Jagtap, P., Basu, M. K., et al. (1998).
Adaptation to low temperature and regulation of gene expression in Antarctic
psychrotrophic bacteria.
Journal of Biosciences
,
23
, 423-435.
Previous Page
Next Page
Advances in Microbial Physiology
Search WWH ::
Custom Search
Home
